JP2011144640A - Various energy conservation cycle combined engine - Google Patents

Various energy conservation cycle combined engine Download PDF

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JP2011144640A
JP2011144640A JP2009261478A JP2009261478A JP2011144640A JP 2011144640 A JP2011144640 A JP 2011144640A JP 2009261478 A JP2009261478 A JP 2009261478A JP 2009261478 A JP2009261478 A JP 2009261478A JP 2011144640 A JP2011144640 A JP 2011144640A
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geothermal
turbine
liquid metal
air
diameter
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Hiroyasu Tanigawa
浩保 谷川
Kazunaga Tanigawa
和永 谷川
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
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Abstract

<P>PROBLEM TO BE SOLVED: To make it possible to generate power 10,000 to 20,000 times greater than an existing steam turbine by liquid metal gravity solar heat combined power generation, although the existing engine is theoreticaly thought to be the best engine. <P>SOLUTION: Power generation using two types of bitten geothermal turbines including a liquid metal gravity cold turbine as a core, namely, power generation using the liquid metal gravity cold turbine plus a heat turbine involving the gravity of a great-specific-gravity substance impact reducing material develops increased power per the same velocity and the same capacity as the atmospheric pressure up to about 10,000-20,000 times power generation using the existing steam turbine. With gravity acceleration applied downward in the vertical direction, the operation of various gravity power generation increased in the power generation quantity with an increase in the number of the turbines achieves the best profit rate in the world. The operation of the various gravity power generation increases a power generation quantity up to ten times that existing in the world, so that everyone easily cooperates for the prosperity of various automobiles and ships driven by very inexpensive gravity power generation batteries, and of wholly-electrified housings and electrified factories electrically driven. Fuel cost and CO2 emission are reduced to zero to abolish existing thermal power generation and prevent global warming. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

本発明は実験結果単位容積水中微生物の消化能力が、空気中微生物の千〜万倍等非常に大きく、自然現象を高速化することで水中微生物を更に増大、CO2消化能力や食糧生産能力を増大して、コンブ類や魚類等人類の食物大増大を狙うものです。又熱ポンプで使用電力の3〜10倍の熱エネルギが得られる情報があり、地熱を種に熱ポンプで圧縮熱回収して3〜10倍の温熱と冷熱両方のエネルギを無限回収し、温熱と冷熱保存利用のエネルギ保存サイクルにします。地球最大加速が重力加速度で最大熱量が太陽熱や地熱で、衝撃低減材料が水銀や鉛合金中核の液体金属や水ですが、液体金属の使用温度が水の臨界温度付近のため、液体金属は冷熱タービン駆動用として、水銀重力温熱タービン駆動又は水重力温熱タービン駆動との併用で使用とし、圧縮空気温熱と冷熱で夫々駆動の、比重大物質水銀水重力温熱駆動タービン8G+食込液体金属重力冷熱駆動タービン8Gとして、地熱空気加熱器2zを公知のボーリングマシン掘削穴に挿入具備し、地熱加熱空気28Dを回収して、重力タービン駆動多数の熱ポンプ1Gで圧縮700度前後にし、圧縮熱回収器2Cで地熱加熱の別空気28aを500度前後に加熱して、熱ポンプ1Gで圧縮1200前後にする熱製造を繰り返し、熱量タービンと質量タービンの2種類を駆動して、実験最良に移行する食込液体金属重力地熱発電中核技術に関する。 In the present invention, the ability of digesting microorganisms in unit volume of water is extremely large, such as 1,000 to 10,000 times that of microorganisms in the air. By increasing the speed of natural phenomena, the number of microorganisms in water is further increased, and CO2 digestion capacity and food production capacity are increased. It aims to increase the food size of humans such as kombu and fish. In addition, there is information that heat energy can be obtained 3 to 10 times the electric power used by the heat pump. By using geothermal heat as the seed, compression heat is recovered by the heat pump, and both heat and cold energy 3 to 10 times are recovered indefinitely. And energy storage cycle for cold storage use. The maximum acceleration of the earth is gravitational acceleration, the maximum heat is solar heat or geothermal heat, and the impact reducing material is mercury or lead alloy core liquid metal or water, but the liquid metal is cold because the operating temperature of the liquid metal is near the critical temperature of water. Turbine drive is used in combination with mercury gravity thermal turbine drive or water gravity thermal turbine drive, and is driven by compressed air temperature and cold heat, respectively, specific material mercury water gravity thermal drive turbine 8G + bite liquid metal gravity cold drive As the turbine 8G, a geothermal air heater 2z is inserted into a well-known boring machine excavation hole, and the geothermal heated air 28D is recovered and compressed to around 700 degrees with a plurality of gravity turbine-driven heat pumps 1G. Then, heat production by heating another air 28a for geothermal heating to around 500 degrees and compressing it to around 1200 by the heat pump 1G is repeated. 2 types of drives, and relates biting liquid metal gravity geothermal power core technology to shift the experiment best.

各種温熱駆動タービン+食込液体金属重力冷熱駆動タービンを重力追加駆動として、水を水銀や液体金属(鉛合金中核500度以下液体金属合金)に追加した衝撃低減材料3Eとし、比重大物質金属球を(合金を含む白金球・金球・タングステン球・鋼球・タンタル球・モリブデン球・鋳鉄球・銀球・銅球・ニッケル球・タンタル球・コバルト球・クロム球・ウラン球)等として、被覆金属球を金属球に被覆を設けたものとし、液体金属を500度以下で液体の金属として、液体金属の中核を鉛合金とし、資源量に最適対応した冷熱駆動タービン中核駆動として、液体金属を液体金属噴射ポンプ6Lで400MPa等噴射し、冷熱駆動タービンを駆動重力追加加速して、タービン翼断面4Xを既存蒸気タービンの2〜26倍にしたタービン翼8cに噴射し、液体金属の転がり接触回転出力の増大として、食込全動翼液体金属重力冷熱タービン中核地熱タービン8G回転にし、地熱空気加熱器2zで加熱の地熱加熱空気28Dを吸入して、熱ポンプで圧縮900度前後にし、圧縮熱回収器2Cで熱交換地熱加熱空気28Dを500度前後に加熱して、吸入圧縮1200度等にし、熱回収を継続して圧縮空気28a温熱冷熱製造を無限継続膨大として、重力や地熱や表面張力や資源量を最適利用し、1〜12倍径多段タービン翼実験最良移行の、食込液体金属重力冷熱タービン中核地熱発電技術に関する。   Various thermal drive turbines + bite-in liquid metal gravity cold drive turbines as gravity additional drive, water is added to mercury and liquid metal (lead alloy core core less than 500 degrees liquid metal alloy) and impact-reducing material 3E, specific critical material metal sphere (Platinum balls including alloys, gold balls, tungsten balls, steel balls, tantalum balls, molybdenum balls, cast iron balls, silver balls, copper balls, nickel balls, nickel balls, tantalum balls, cobalt balls, chromium balls, uranium balls, etc.) The coated metal sphere is coated with a metal sphere, the liquid metal is a liquid metal at 500 degrees or less, the core of the liquid metal is a lead alloy, and the liquid metal is used as the core drive of a cold-powered turbine that is optimally suited to the amount of resources. Turbine blades having a turbine blade cross section 4X of 2 to 26 times that of an existing steam turbine, by injecting 400 MPa and the like with a liquid metal injection pump 6L, and further accelerating the driving of a cold-powered turbine As the increase of the liquid metal rolling contact rotation output, the encroaching all rotor blade liquid metal gravity cold and heat turbine core geothermal turbine 8G rotation, the geothermal air heater 2z sucked the geothermal heating air 28D for heating, The heat is compressed to around 900 degrees with a heat pump, and the heat exchange geothermal heating air 28D is heated to around 500 degrees with the compression heat recovery device 2C to obtain a suction compression of 1200 degrees, etc., and heat recovery is continued to produce compressed air 28a hot and cold. The present invention relates to the core geothermal power generation technology of the biting liquid metal gravity cold and cold turbine that makes the best use of gravity, geothermal, surface tension, and resource amount, and makes the best transition of 1 to 12 times diameter multi-stage turbine blade experiment.

既存火力原子力発電の海面温度7度上昇を100年続けると、10%成長で海水温度上昇量が現在の1000倍を超えるため、旱魃や豪雨や風速を10倍の300m/秒台風や季節風として南極の氷を0に近付け、陸と海の食糧が0に近付き、対応が0のため人類が絶滅する背景があります。既に日本近海の海藻類や魚類が絶滅に近付くテレビ報道や、魚類が1/100等に激減した情報があり、海水温度7度上昇の過程で植物プランクトンの一部を死滅させている疑いがあり、冬場に季節風等で海面を冷却海底に窒素や酸素やCO2等の栄養分を供給していた自然現象を不可能にして、海草類やサンゴ等を絶滅に近付けている疑いが非常に強いのです。利益が少ないと協力不可能で利益が大きい程協力容易という背景があります。そこで海水温度上昇0CO2排気0燃料費0の液体金属重力冷熱タービン中核発電とし、利益率抜群の世界一で自然現象高速化発電にして、温熱タービン排気を海水冷却前に海水に冷熱の窒素や酸素やCO2を混合低温海水冷却にし、真空最大タービン効率最大の自然現象高速化にして、植物フランクトンや動物フランクトン等の微生物を大増殖し、食物連鎖等により海草類やサンゴやコンブや魚類等を大増殖する自然現象高速化にして、旱魃や集中豪雨や海面上昇や台風や季節風や竜巻等の巨大化を阻止する、人類絶滅阻止も必要です。   If the sea surface temperature of existing thermal nuclear power generation continues to rise 7 degrees for 100 years, the seawater temperature rise will exceed 1000 times by 10% growth, so the dredging, heavy rain and wind speed will be 10 times 300m / sec. There is a background that humans are extinct because the ice of the sea approaches 0, the food of land and sea approaches 0, and the response is 0. There is already a TV report that seaweeds and fish near Japan are near extinction, and information that fish has drastically decreased to 1/100 etc., and there is a suspicion that a part of phytoplankton has been killed in the process of rising seawater temperature by 7 degrees Cooling the sea surface with seasonal winds in winter, the natural phenomenon that supplies nutrients such as nitrogen, oxygen and CO2 to the sea floor is impossible, and there is a strong suspicion that seaweeds and corals are approaching extinction. There is a background that cooperation is impossible when profit is small and cooperation is easier when profit is large. Therefore, liquid metal gravity cold heat turbine core power generation with seawater temperature rise 0 CO2 exhaust 0 fuel cost 0, and the world's most profitable natural phenomenon high-speed power generation, and heat turbine exhaust to seawater before cooling the seawater with cold nitrogen and oxygen CO2 is mixed with low-temperature seawater cooling, maximum vacuum turbine efficiency is maximized, natural phenomena are accelerated, and microorganisms such as plant franktons and animal franktons are proliferated. It is also necessary to increase the speed of natural phenomena that proliferate and prevent the extinction of mankind by preventing droughts, torrential rains, rising sea levels, typhoons, seasonal winds, and tornadoes.

出力や仕事率の単位がkg重m/秒等重量×速度のため、重い物質を重力加速度加速にして回転出力を発生するのが理論最良エンジンですが、考えた痕跡が皆無という背景があります。そこで消費燃料0資源最良最多の液体金属重力中核発電にし、大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン発電の1.9万倍前後液体金属仕事率にして、水銀や液体金属(鉛合金中核)や水等の出力増大球2E兼衝撃低減材料3Eを含む、合金含む金属球や被覆金属球を垂直下方に重力加速度加速にすると、低速で落差を増大する入力より重力加速度の速度増大だけでも仕事率は大幅に増大し、燃料費0の熱製造を追加した出力として、タービンの多数化で限り無く出力を増大できる背景があります。海水温度上昇0やCO2排気0や燃料費0の理論最良タービン重力発電として、無限大に近い発電は水や水銀や液体金属(鉛合金中核)を含む転がり接触タービン駆動の発電とし、軽量化が重要な飛行機類や船舶類は水銀や液体金属を含む重力駆動として、限りある資源を子孫に残す手段の温熱や冷熱の回収利用無限大や無限大に近い発電量とし、重力発電蓄電池駆動や電気駆動の、各種自動車類全盛や各種船舶類全盛や全面電化住宅全盛や工場電化全盛等、安価な発電の蓄電池駆動や電気駆動の地球温暖化防止が得られる背景があり、身近には氷製造や冷房で膨大な電気を消費して、夏の環境にCO2や熱を放出する迷惑行為があり、圧縮空気冷熱で氷製造都市部を氷冷却する迷惑解消法があります。   Since the unit of output and power is kg weight m / sec, equal weight x speed, the best engine theoretically generates a rotating output by accelerating gravitational acceleration of heavy substances, but there is a background that there is no trace of thought. Therefore, the best power of the liquid metal gravity core power generation with zero fuel consumption, the atmospheric pressure, the same speed, the same volumetric power, kg weight m / second, the liquid metal power of about 19 thousand times that of the existing steam turbine power generation, When a metal sphere or coated metal sphere containing an alloy including an output increasing sphere 2E and impact reducing material 3E such as a liquid metal (lead alloy core) or water is accelerated vertically to a gravitational acceleration, the gravity is lower than the input which increases the head at low speed. The increase in acceleration speed alone greatly increases the work rate, and as a result of adding heat production with zero fuel cost, there is a background that the output can be increased without limit by the increase in the number of turbines. Theoretical best turbine gravity power generation with seawater temperature rise 0, CO2 exhaust 0 and fuel cost 0 As near to infinity, power generation is driven by rolling contact turbines containing water, mercury, and liquid metal (lead alloy core), and weight reduction Important airplanes and ships are driven by gravity, including mercury and liquid metals, recovering and using heat and cold as a means to leave limited resources to their descendants, and generating electricity at infinity or near infinity. Driven by various types of automobiles, various types of ships, full-scale electrified housing, and factory electrification. There is a nuisance act that consumes a large amount of electricity in cooling and releases CO2 and heat in the summer environment, and there is a nuisance solving method that cools ice making cities with compressed air cooling.

外れて欲しい予想は、中国が10%成長を50年続けると海水温度上昇量が現在の32倍になり、日本の季節風が50〜80m/秒となって国土全部が海水に汚染される可能性があり、今の雇用不安も小泉総理に再三予想を提供の日本大企業80%前後ゴーストタウン化が始まったのではと心配、危機をチャンスにする知恵が必要です。昭和17〜18年に理論最良エンジンの発明を決意実際は改良から始め、昭和38年岡山地方発明センターの請負で試作を開始して、自分でも試作を続けましたがエンジンの試作は非常に困難です。そこで昭和57年2月より国内大企業等多数にご協力のお願い始めましたが、日本企業等の協力が皆無で、外国唯一お願いしたクリントン大統領の協力がお願いの都度3年3回得られ、1992年米国特許5133305号、1993年米国特許5230307号、1995年米国特許5429078号の駄目発明が判明したのです。既存のエンジンに致命的な欠点が非常に多く改良発明不可能が判明し、急がば回れと1997年ホームページを開設して欠点を1つ改良特許出願して、2008年理論最良エンジン近傍に到達し、元大統領の協力により例えば重力地熱発電により燃料費0で発電機及び熱ポンプを駆動して、無限大に近い電気及び温熱と冷熱を極端に安価製造冷熱駆動タービン中核駆動可能とし、500°C以下液体金属併用発電等で、大気圧同速度同容積仕事率を既存蒸気タービン発電の1〜2.3万倍にする、実験最良エンジンに移行したいのです。   The expectation is that if China continues its 10% growth for 50 years, the rise in seawater temperature will be 32 times the current level, and the seasonal wind in Japan will be 50 to 80m / sec. As for the current job insecurity, we are worried that the conversion of ghost towns to around 80% of large Japanese companies that will provide Prime Minister Koizumi with repeated expectations, and we need wisdom to make the crisis a chance. Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, started the prototype at the Okayama Regional Invention Center in 1963, and continued to make the prototype myself, but the engine prototype was very difficult. . Therefore, in February 1982, we started requesting cooperation from a large number of large domestic companies, etc., but there was no cooperation from Japanese companies, etc., and every time we asked for the cooperation of President Clinton, the only request from foreign countries, three times a year, The 1992 US Patent 5133305, 1993 US Patent 5230307, and 1995 US Patent 5429078 were found to be useless. There were so many fatal defects in the existing engine that it was impossible to improve the invention, and it suddenly opened and the 1997 homepage was opened, and a patent for improving one defect was filed. With the cooperation of the former president, for example, the generator and heat pump are driven by gravitational geothermal power generation with zero fuel cost, making it possible to drive the core of the chill-driven turbine that is extremely inexpensive to produce electricity, heat and cold near infinity, 500 ° I want to move to the best engine for experiments, which uses C or less liquid metal combined power generation, etc., to increase the atmospheric pressure, the same speed, and the same volumetric power by 1 to 23,000 times that of the existing steam turbine power generation.

米国特許第6119650号、中国特許第8818号、EU英国特許902175号、米国特許第6263664号があり、上記多数の背景技術を改良や、下記特許文献2理論最良エンジン発明の過程の発明や、実験最良を狙う発明では、液体金属重力発電で蒸気タービン発電の1〜2.3万倍発電にする実験をしよう。水重力発電で蒸気タービン発電の1700倍発電にする実験をしよう。太陽熱や地熱を種に重力駆動熱ポンプで無限大に近い温熱と冷熱製造の実験をしよう。各種重力発電で既存世界の10倍発電量CO2排気0にし、蓄電池駆動の自動車類全盛や船舶類全盛や、電気駆動の電化住宅全盛や工場電化全盛にしよう。化石燃料等限りある資源の燃焼は必要最小限にして子孫に残そう。各種重力発電で自然現象高速化して海草類等を増大、CO2消化能力を森林の数万倍等にしょう。各種重力発電でCO2排気を0にしよう等があります。There are US Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, and US Pat. No. 6,263,664. Many of the above-mentioned background technologies have been improved. In the invention that aims at the best, let's experiment with liquid metal gravity power generation to generate 1 to 23,000 times that of steam turbine power generation. Let's experiment with water gravity power generation to generate power 1700 times that of steam turbine power generation. Let's experiment with near-infinite warm and cold manufacturing with a gravity-driven heat pump using solar heat and geothermal heat as seeds. Make various generations of gravity 10 times the amount of CO2 emissions of the existing world, and make the battery-powered automobiles and ships prime, electric-powered electrified housing prime and factory electrification prime. Let the combustion of limited resources, such as fossil fuels, remain to the offspring with the minimum necessary. Let's speed up natural phenomena with various kinds of gravity power generation, increase seaweeds, etc., and make CO2 digestion capacity tens of thousands times that of forests There are various kinds of gravity power generation, such as trying to reduce CO2 exhaust.

先の出願として特願2008−6612号、特願2008−22246号、特願2008−24656号、特願2008−28582号、特願2008−30162号、特願2008−94452号、特願2008−99870号、特願2008−125665号、特願2008−134046号、特願2008−137629号、特願2008−157556号、特願2008−158830号、特願2008−162842号、特願2008−164111号、特願2008−166907号、特願2008−169979号、特願2008−173046号、特願2008−174231号、特願2008−178700号、特願2008−179872号、特願2008−181052号、特願2008−182325号、特願2008−186795号、特願2008−188165号、特願2008−202677号、特願2008−203842号、特願2008−206632号、特願2008−209497号、特願2008−214912号、特願2008−229434号、特願2008−231842号、特願2008−243690号、特願2008−245061号、特願2008−249719号、特願2008−256006号、特願2008−266020号、特願2008−269294号、特願2008−282825号、特願2008−288411号、特願2008−290630号、特願2008−295174号、特願2008−299091号、特願2008−305951号、特願2008−319210、特願2008−327045号と、実験最良を狙う特願2009−011656号、特願2009−013856号、特願2009−015027号、特願2009−016249号、特願2009−021161号、特願2009−022247号、特願2009−023345号、特願2009−024512号、特願2009−025684号、特願2009−026989号、特願2009−028105号、特願2009−028150号、特願2009−028253号、特願2009−029406号、特願2009−029471号、特願2009−029539号、特願2009−030759号、特願2009−030865号、特願2009−030942号、特願2009−032264号、特願2009−032312号、特願2009−032378号、特願2009−033490号、特願2009−033534号、特願2009−033679号、特願2009−037263号、特願2009−048869号、特願2009−048951号、特願2009−049078号、特願2009−057455号、特願2009−057586号、特願2009−057745号、特願2009−077911号、特願2009−078042号、特願2009−099631号、特願2009−099697号、特願2009−099777号、特願2009−101616号、特願2009−101707号、特願2009−101813号、特願2009−102700号、特願2009−102759号、特願2009−102834号、特願2009−113235号、特願2009−113308号、特願2009−113410号、特願2009−114208号、特願2009−114277号、特願2009−114425号、特願2009−117323号、特願2009−117384号、特願2009−117501号、特願2009−122806号、特願2009−122905号、特願2009−122971号、特願2009−132803号、特願2009−132898号、特願2009−133001号、特願2009−143024号、特願2009−143110号、特願2009−143234号、特願2009−148351号、特願2009−148406号、特願2009−148490号、特願2009−150668号、特願2009−150810号、特願2009−150935号、特願2009−154759号、特願2009−154894号、特願2009−155041号、特願2009−159504号、特願2009−159584号、特願2009−159640号、特願2009−173960号、特願2009−174033号、特願2009−174126号、特願2009−177369号、特願2009−177460号、特願2009−177568号、特願2009−182941号、特願2009−182958号、特願2009−182992号、特願2009−185486号、特願2009−185521号、特願2009−185577号、特願2009−186284号、特願2009−186331号、特願2009−186377号、特願2009−188916号、特願2009−188959号、特願2009−189017号、特願2009−189737号、特願2009−189814号、特願2009−189893号、特願2009−191699号、特願2009−191763号、特願2009−191835号、特願2009−195091号、特願2009−195153号、特願2009−195235号、特願2009−197757号、特願2009−197854号、特願2009−197952号、特願2009−201315号、特願2009−201369号、特願2009−201412号、特願2009−204378号、特願2009−204446号、特願2009−204507号、特願2009−206716号、特願2009−206796号、特願2009−206838号、特願2009−207798号、特願2009−207877号、特願2009−207951号、特願2009−212823号、特願2009−212910号、特願2009−213019号、特願2009−215289号、特願2009−215401号、特願2009−215456号、特願2009−218538号、特願2009−218635号、特願2009−218720号、特願2009−220172号、特願2009−220285号、特願2009−220378号、特願2009−226265号、特願2009−226471号、特願2009−226632号、特願2009−230054号、特願2009−230069号、特願2009−230091号、特願2009−230054号、特願2009−230069号、特願2009−230091号、特願2009−232180号、特願2009−232209号、特願2009−232255号、特願2009−234036号、特願2009−234076号、特願2009−234118、特願2009−235954号、特願2009−236014号、特願2009−236046号、特願2009−237813号、特願2009−237827号、特願2009−237855、特願2009−237884号、特願2009−237916号、特願2009−237948号、特願2009−240941号、特願2009−240963号、特願2009−240987号、特願2009−241000号、特願2009−241037号、特願2009−241069、特願2009−241087号、特願2009−241137号、特願2009−241223号、特願2009−242907号、特願2009−242922号、特願2009−242955、特願2009−242985号、特願2009−243035号、特願2009−243064号、特願2009−243077号、特願2009−243100号、特願2009−243134号、特願2009−245993号、特願2009−246004号、特願2009−246024、特願2009−246059号、特願2009−246101号、特願2009−246146号、特願2009−246182号、特願2009−246228号、特願2009−246310号、特願2009−251573号、特願2009−251584号、特願2009−251598、特願2009−251620号、特願2009−251639号、特願2009−251665号、特願2009−251676号、特願2009−251718号、特願2009−251768号があります。As 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既存世界の火力原子力発電所では、CO2増大地球温暖化加速や海水表面温度摂氏7度上昇海域を100年で1000倍等として、海水に溶解したCO2を順次大量に大気放出して大気中のCO2を大増大し、北洋等の冬場に海面冷却海底に栄養分を供給していた自然現象を段階的に不可能として、植物プランクトンや海草類やサンゴ等を激減、食物連鎖により魚類の食糧激減魚類を大幅に激減人類の海中食物を限り無く減少し、旱魃や集中豪雨や台風や季節風を100年で10倍等に増大して、例えば台風や季節風を300m/秒等として陸上での食糧生産も加速度的に困難とし、人類絶滅の危険を増大のため、既存世界の火力原子力発電所を0とした地球温暖化防止にして、人類絶滅を先送りする課題があります。   At existing thermal power plants in the world, CO2 increases in global warming acceleration and sea surface temperature rises 7 degrees Celsius by 1000 times in 100 years, and so on. The natural phenomenon of supplying nutrients to the sea-cooled seabed in the winter in the North Sea, etc. is made impossible in stages, phytoplankton, seaweeds, corals, etc. are drastically reduced, and the food chain dramatically reduces fish foods The number of underwater foods is drastically reduced and droughts, heavy rains, typhoons and seasonal winds are increased 10 times in 100 years. In order to increase the risk of human extinction, there is a challenge to postpone human extinction by preventing global warming by setting thermal nuclear power plants in the existing world to zero.

熱製造の熱ポンプを液体金属重力冷熱タービン中核で駆動すると、温熱(圧縮空気熱量等)と冷熱(圧縮空気質量等)を燃料費0で分割保存出来ます。重力地熱発電や重力地熱発電により、地熱や地熱と熱製造装置の熱ポンプにより温熱と冷熱の製造量を無限大に近付け、限りある石油資源等はCO2にせず大切な資源として必要最小限の使用とし、子子孫孫まで残すと共にCO2排気0発電で地球温暖化防止して、最良資源が水銀ですが不足が明白なため、鉛合金中核の液体金属や水で不足分を代替し、既存火力発電を0として、旱魃や豪雨や海面上昇や台風や季節風や竜巻の巨大化を阻止し、既存世界の10倍発電量等として、重力地熱発電や重力地熱発電の蓄電池駆動各種自動車類全盛や各種船舶類全盛や、電気駆動の全面電化住宅全盛や工場電化全盛や温熱と冷熱利用全盛にし、CO2排気0燃料費0発電にして、地球温暖化防止して人類絶滅を先送りします。 When a heat pump for heat production is driven by the core of a liquid metal gravity cooling / heating turbine, the heat (compressed air heat amount, etc.) and the cold heat (compressed air mass, etc.) can be divided and stored at zero fuel cost. With gravity geothermal power generation and gravity geothermal power generation, geothermal heat and geothermal heat and heat production equipment heat pumps bring the amount of hot and cold production close to infinity, and limited petroleum resources are used as important resources as important resources without using CO2. In addition to leaving off to offspring, and preventing global warming with zero CO2 exhaust power generation, the best resource is mercury, but the shortage is obvious, so replace the shortage with lead metal core liquid metal and water, existing thermal power generation 0 to prevent dredging, heavy rain, sea level rise, typhoons, seasonal winds, and tornadoes, and as a 10-fold increase in power generation in the existing world, various types of batteries driven by gravity geothermal power generation and gravitational geothermal power generation It will be the prime of all sorts of electricity, the full-scale electrification of electric houses, the prime of factory electrification, the use of heat and cold, and the generation of CO2 emissions and zero fuel costs, preventing global warming and delaying the extinction of mankind.

CO2排気0燃料費0の全動翼弾み車タービンにより、金属球や被覆金属球や水銀や鉛合金等液体金属や水の重力駆動太陽熱発電や地熱発電にし、各種重力発電の大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービンの1〜2.3万倍仕事率前後の発電量にして、既存世界の発電量の10倍発電量等とし、太陽熱発電や地熱発電の蓄電池駆動各種自動車類全盛や各種船舶類全盛や、電気駆動の工場電化全盛や全面電化住宅全盛にして、既存世界の火力発電所を全廃CO2排気0燃料費0等にし、旱魃や集中豪雨や海面上昇や台風や季節風や竜巻等の巨大化を阻止し、人類絶滅を先送りする効果があります。   CO2 exhaust gas 0 fuel cost 0 all-wheel impeller turbine makes metal ball, coated metal ball, mercury and lead alloy liquid metal and water gravity driven solar thermal power generation and geothermal power generation, atmospheric pressure, same speed and volume of various gravity power generation The work load kg weight m / sec is 1 to 23,000 times the power generation rate of the existing steam turbine, and the power generation amount is 10 times that of the existing world power generation. Various types of automobiles, various types of ships, electric drive factory electrification, full electrification housing, and all existing world thermal power plants are totally abolished, CO2 exhaust is zero, fuel cost is zero, etc. This has the effect of preventing the typhoon, seasonal winds, tornadoes, etc. from becoming huge and delaying the extinction of humanity.

食込液体金属重力冷熱タービン8Kの説明図(実施例1)Explanatory drawing of a biting liquid metal gravity cooling and heating turbine 8K (Example 1) 食込液体金属重力冷熱タービン8Kと温熱タービンの説明図(実施例2)Explanatory drawing of an encroaching liquid metal gravity cold heat turbine 8K and a thermal turbine (Example 2) 地熱空気加熱器2zの説明図(実施例3)Explanatory drawing of the geothermal air heater 2z (Example 3)

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

図1図2の食込液体金属重力冷熱タービン8K中核発電は、500度以下鉛合金中核の各種液体金属合金を使用のため、過熱蒸気50温熱駆動タービンは液体金属以外で駆動し、冷熱駆動金属球液体金属重力タービンや冷熱駆動液体金属重力タービンで使用して、温熱駆動金属球水銀タービンや温熱駆動被覆金属球水銀タービンや、温熱駆動金属球水タービンや温熱駆動被覆金属球水タービン等、各種温熱駆動比重大物質重力タービン併用で使用し、タービン外箱77a内に1〜120段等垂直に多段に設けて、図2水平軸16Aにより水平に1〜12台に接続切離し自在に具備して、同径略同形同長として交換自在に多段タービンを容易に設け、食込液体金属重力冷熱タービン8K駆動の過程では、増大球上昇装置2Fにより液体金属を最上部に上昇保存し、液体金属噴射ポンプ6L等で400MPa等噴射冷熱タービン駆動重力加速部1g加速して、食込液体金属重力冷熱タービン8K駆動を繰返して多段タービンを駆動し、水平軸16Aに発電機1や熱ポンプ1Gや圧縮熱回縮収器2Cや空気熱交換器2Xや水熱交換器2Y等を具備して、各種温熱駆動比重大物質衝撃低減材料重力タービンとの共同発電にし、燃料費0の液体金属重力地熱発電で発電量や温熱製造量無限増大に挑戦する、食込弾み車液体金属重力冷熱タービン8Kによる地球温暖化防止発電にします。 1 The core power generation of the biting liquid metal gravity cooling / heating turbine 8K in FIG. 2 uses various liquid metal alloys with lead alloy cores of 500 degrees or less, so the superheated steam 50 temperature driven turbine is driven by other than the liquid metal, and the cold driven metal Used in spherical liquid metal gravity turbines and cold-powered liquid metal gravity turbines, such as thermal-driven metal sphere mercury turbine, thermal-driven coated metal sphere mercury turbine, thermal-driven metal sphere water turbine and thermal-driven coated metal sphere water turbine It is used in combination with a gravity-driven gravity turbine with a thermal drive ratio, and is provided in multiple stages vertically such as 1 to 120 stages in the turbine outer box 77a, and can be connected and disconnected to 1 to 12 units horizontally by the horizontal axis 16A in FIG. In the process of driving the biting liquid metal gravity cooling / heating turbine 8K, the liquid metal is best removed by the increasing sphere raising device 2F. Accelerate 1g of 400MP, etc. injection cold / heat turbine driven gravity acceleration unit with liquid metal injection pump 6L, etc., and drive multistage turbine by repeatedly driving biting liquid metal gravity / cool turbine 8K to generate power on horizontal axis 16A Machine 1, heat pump 1G, compression heat regenerator 2C, air heat exchanger 2X, water heat exchanger 2Y, etc., and jointly generate power with various thermal drive ratio critical material impact reducing materials gravity turbine, fuel It will be a global warming-preventing power generation using a liquid metal gravity cooling and heating turbine 8K that challenges the infinite increase in power generation and thermal production with zero cost liquid metal gravity geothermal power generation.

実験最良を狙う食込弾み車液体金属重力冷熱タービン8Kには、推力や重量を支える推力軸受80aや軸受80や液体金属を加速する重力加速部1gを設け、発電機1や熱ポンプ1Gを水平軸16Aの両側に設けて、タービン外箱77aの外で駆動し、食込弾み車液体金属重力冷熱タービン8Kを、液体金属噴射ポンプ6Lの噴射液体金属速度を圧縮空気28a噴射速度で加速駆動して、重力加速度の追加により液体金属の最高速度とし、同径略同形同長として、交換自在に設けて1〜120段タービンを可能にし、大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービン発電の2万倍前後にして、既存タービン翼断面積の1〜26倍断面積にしたタービン翼断面4Xに噴射し、回転出力発生の過程で500度前後高温液体金属で圧縮空気28aを加熱して、容積増大で回転出力を増大して排気空気28a温度を300度前後に上昇し、空気抽出器51で吸入圧縮熱ポンプ1Gで吸入圧縮1200度前後熱回収して、余剰空気28a冷熱により海水冷却海水に大気の窒素や酸素やCO2を混合溶解し、自然現象高速化中の低温海水で選択した温熱タービン排気を水復水器2a冷却して、長時間微生物同居でCO2消化能力と真空とタービン効率を最大とし、CO2排気0燃料費0の発電にして、既存火力原子力発電量を0にする、地球温暖化防止の食込液体金属重力冷熱タービン8K中核発電にします。 The biting wheel liquid metal gravity refrigeration turbine 8K aiming at the best experiment is provided with a thrust bearing 80a for supporting thrust and weight, a bearing 80 and a gravity acceleration portion 1g for accelerating the liquid metal, and the generator 1 and the heat pump 1G are mounted on a horizontal axis. 16A is provided on both sides of the turbine outer box 77a and driven outside the turbine outer box 77a, and the driving metal liquid gravity gravity cooling turbine 8K is driven to accelerate the jet liquid metal speed of the liquid metal jet pump 6L at the compressed air 28a jet speed. With the addition of gravitational acceleration, the maximum speed of the liquid metal is achieved, the diameter is approximately the same shape, the length is interchangeable, and a 1 to 120 stage turbine is possible, and the atmospheric pressure, the same speed, the same volumetric power, kg weight m / second, Injected into the turbine blade cross section 4X, which is about 20,000 times the existing steam turbine power generation and 1 to 26 times the existing turbine blade cross-sectional area, and compressed with high-temperature liquid metal around 500 degrees in the process of generating rotational output The air 28a is heated, the rotational output is increased by increasing the volume, the temperature of the exhaust air 28a is increased to around 300 degrees, and the air extractor 51 recovers the heat by about 1200 degrees by the suction compression heat pump 1G to recover the surplus. Air 28a cools and mixes and dissolves atmospheric nitrogen, oxygen, and CO2 in seawater-cooled seawater, cools the hot turbine exhaust selected in the low-temperature seawater, which is speeding up the natural phenomenon, and cools the CO2 in the presence of microorganisms for a long time. We will make the digestion liquid metal gravity cooling and thermal turbine 8K core power generation of global warming prevention that maximizes digestion capacity, vacuum and turbine efficiency, generates CO2 exhaust 0 fuel cost 0 power generation, and makes existing thermal nuclear power generation amount 0.

図2の食込液体金属重力冷熱タービン8K中核地熱発電では、食込液体金属重力冷熱タービン8K+比重大物質衝撃低減材料重力温熱タービン選択、夫々をタービン外箱77a内に垂直に1〜複数段とし、2種類を近くに設ける多段として、水平軸16Aにより水平に1〜12台に接続切離し自在に増大し、同径略同形同長として交換自在に多段タービンを容易に設け、食込液体金属重力冷熱タービン8K中核駆動の過程では、増大球上昇装置2Fにより、液体金属と比重大物質衝撃低減材料を夫々の最上部に上昇保存し、比重大物質衝撃低減材料で選択した温熱タービンを駆動して、液体金属を液体金属噴射ポンプ6L等で400MPa等噴射し、圧縮空気制御弁24A開放400MPa等の圧縮空気28a冷熱の加速にして、重力加速度追加加速にし、回転出力発生500度前後液体金属で圧縮空気28aを加熱して、容積速度増大で回転出力を増大して排気空気28a温度を300度前後に上昇し、空気抽出器51で吸入圧縮熱ポンプ1Gで吸入圧縮1200度前後熱回収して、余剰空気28a冷熱により海水冷却海水に大気の窒素や酸素やCO2を混合溶解し、自然現象高速化中の低温海水で選択した温熱タービン排気を水復水器2a冷却して、海水に窒素や酸素やCO2を分散供給植物プランクトンや海草類等を大増殖し、食物連鎖等により魚類やコンブ類等食物増産の地熱発電にします。 In the core geothermal power generation of the biting liquid metal gravity cooling / heating turbine 8K in FIG. 2, the biting liquid metal gravity cooling / heating turbine 8K + specific material impact reduction material gravity / thermal turbine selection, each of which is vertically arranged in the turbine outer box 77a in one to a plurality of stages. As a multi-stage with two types nearby, the horizontal shaft 16A can be connected to and disconnected horizontally from 1 to 12 units, and a multi-stage turbine can be easily installed with the same diameter and approximately the same shape and length. In the process of the core driving of the gravity cold heat turbine 8K, the rising sphere rising device 2F stores the liquid metal and the specific material impact reducing material at the top of each of them, and drives the thermal turbine selected by the specific material impact reducing material. Then, the liquid metal is injected at 400 MPa or the like by the liquid metal injection pump 6L or the like, and the compressed air control valve 24A is opened and the compressed air 28a such as 400 MPa is accelerated to accelerate the gravitational acceleration. Acceleration is performed, and the compressed air 28a is heated with liquid metal at around 500 degrees to generate the rotational output, the rotational output is increased by increasing the volume speed, the temperature of the exhaust air 28a is increased to around 300 degrees, and the air extractor 51 sucks and compresses the compressed air. The heat pump 1G recovers heat at around 1200 degrees by suction compression, and the surplus air 28a cools and mixes and dissolves atmospheric nitrogen, oxygen, and CO2 into seawater-cooled seawater. Water condenser 2a is cooled, and phytoplankton and seaweeds are distributed in a distributed manner by supplying nitrogen, oxygen and CO2 to seawater, and it is made into geothermal power generation by increasing food production such as fish and kombu through the food chain.

実験最良を狙う食込液体金属重力冷熱タービン8K水平軸16Aには、発電機1や熱ポンプ1G圧縮熱回収器2C等を具備タービン外箱77aの両側で駆動し、推力や重量を支える推力軸受80aや軸受80や、液体金属を加速する重力加速部1gを設けて、重力加速部1gによる重力加速度追加により液体金属の最高速度とし、大気圧同速度同容積仕事率kg重m/秒を、既存蒸気タービンの2万倍前後の発電にして、既存タービン翼断面積の1〜26倍断面積にしたタービン翼断面4Xに噴射し、強度増大大型翼面の転がり接触回転出力の増大として、冷熱タービン出力発生では絶対0度に近付く圧縮空気28aを300度前後等に加熱し、圧縮空気28a容積速度の増大により回転出力を増大して、300度前後の冷熱タービン排気空気28aは熱ポンプ1Gで圧縮して熱回収を継続し、選択した温熱タービンの過熱蒸気排気は水復水器2aで冷熱冷却した海水で冷却して、空気抽出器51で最大真空にする、温熱駆動比重大物質衝撃低減材料重力地熱タービン発電+冷熱駆動液体金属重力地熱タービン発電にします。 The edging liquid metal gravity cold heat turbine 8K horizontal shaft 16A aiming at the best experiment is equipped with a generator 1, a heat pump 1G compression heat recovery device 2C, etc. and is driven on both sides of the turbine outer box 77a, and thrust bearings that support thrust and weight 80a, a bearing 80, and a gravity acceleration unit 1g for accelerating the liquid metal are provided, and the maximum acceleration of the liquid metal is obtained by adding the gravitational acceleration by the gravity acceleration unit 1g. As a power generation of about 20,000 times that of the existing steam turbine, it is injected into the turbine blade cross section 4X having a cross sectional area of 1 to 26 times the existing turbine blade cross-sectional area. When the turbine output is generated, the compressed air 28a approaching 0 degrees is heated to about 300 degrees, and the rotational output is increased by increasing the volume speed of the compressed air 28a. 28a is compressed by the heat pump 1G and heat recovery is continued, and the superheated steam exhaust of the selected thermal turbine is cooled by seawater cooled by the water condenser 2a and is made the maximum vacuum by the air extractor 51. Driving ratio material impact reduction material gravity geothermal turbine power generation + cold driven liquid metal gravity geothermal turbine power generation.

食込液体金属重力冷熱駆動地熱タービン8Kと併用する温熱タービンは、金属球水銀重力食込温熱駆動地熱タービン8M、被覆金属球水銀重力食込温熱駆動地熱タービン8M、金属球水銀重力直列温熱駆動地熱タービン8L、被覆金属球水銀重力直列温熱駆動地熱タービン8L、金属球水銀重力対向温熱駆動地熱タービン8K、被覆金属球水銀重力対向温熱駆動地熱タービン8K、金属球水銀重力竪型温熱駆動地熱タービン8G、被覆金属球水銀重力竪型温熱駆動地熱タービン8G、金属球水重力食込温熱駆動地熱タービン8M、被覆金属球水重力食込温熱駆動地熱タービン8M、金属球水重力直列温熱駆動地熱タービン8L、被覆金属球水重力直列温熱駆動地熱タービン8L、金属球水重力対向温熱駆動地熱タービン8K、被覆金属球水重力対向温熱駆動地熱タービン8K、金属球水重力竪型温熱駆動地熱タービン8G、被覆金属球水重力竪型温熱駆動地熱タービン8G等、温熱駆動各種比重大物質衝撃低減材料重力地熱タービンとし、用途や資源量に合わせて限り無く互換使用します。   The thermal turbine used in combination with the eroded liquid metal gravity cold driven geothermal turbine 8K is a metal sphere mercury gravity eroded thermal drive geothermal turbine 8M, a coated metal sphere mercury gravity eroded thermal drive geothermal turbine 8M, and a metal sphere mercury gravity serial thermal drive geothermal. Turbine 8L, covered metal sphere mercury gravity series thermal drive geothermal turbine 8L, metal sphere mercury gravity opposed thermal drive geothermal turbine 8K, coated metal sphere mercury gravity opposed thermal drive geothermal turbine 8K, metal sphere mercury gravity vertical thermal drive geothermal turbine 8G, Coated metal sphere mercury gravity vertical thermal drive geothermal turbine 8G, metal sphere water gravity encroaching thermal drive geothermal turbine 8M, coated metal sphere water gravity encroachment thermal drive geothermal turbine 8M, metal sphere water gravity serial thermal drive geothermal turbine 8L, coating Metal sphere water gravity series thermal drive geothermal turbine 8L, metal sphere water gravity opposed thermal drive geothermal turbine 8K, coated metal sphere water weight Opposed thermal drive geothermal turbine 8K, metal sphere water gravity gravity type thermal drive geothermal turbine 8G, coated metal sphere water gravity gravity type thermal drive geothermal turbine 8G, etc. Use interchangeably without limit according to the amount.

図3の地熱空気加熱器2zは、先端の螺旋突起3Kを各種ボーリングマシン掘削穴に螺子込利用して、先端の熱吸収材2Bで地中最大熱量の地熱を集めて、吸入空気路28Aより空気28aを吸入熱吸収材2Bで100〜300度等に加熱し、断熱材2cの隔離断熱板3Hで隔離の地熱加熱空気路28Dより加熱空気28aを吸入して、熱ポンプ1Gにより吸入圧縮700度前後にし、圧縮熱回収器2Cにより熱交換地熱加熱の別空気28aを500度等に加熱して、多数の熱ポンプ1Gにより吸入圧縮1200度等に複数回圧縮し、複数回熱回収500度前後にして、最適温度24〜400MPa圧縮空気28a質量+400度前後24〜400MPa過熱蒸気50熱量に分割保存し、夫々で液体金属重力対向質量タービン8Kと、金属球水銀重力対向熱量タービン8Kを、CO2排気0燃料費0で駆動する地熱発電にします。   The geothermal air heater 2z in FIG. 3 collects the geothermal heat with the maximum amount of underground heat by using the heat absorbing material 2B at the tip by screwing the spiral protrusion 3K at the tip into various drilling holes, and from the intake air passage 28A. The air 28a is heated to 100 to 300 degrees or the like by the suction heat absorbing material 2B, the heated air 28a is sucked from the isolated geothermal heating air passage 28D by the isolation heat insulating plate 3H of the heat insulating material 2c, and is sucked and compressed 700 by the heat pump 1G. Then, another air 28a for heat exchange geothermal heating is heated to 500 degrees or the like by the compression heat recovery device 2C, and compressed multiple times to a suction compression 1200 degrees or the like by a large number of heat pumps 1G, and heat recovery is performed 500 degrees multiple times Before and after, optimal temperature 24 to 400 MPa compressed air 28a mass + around 400 degrees 24 to 400 MPa superheated steam 50 heat quantity is stored separately, liquid metal gravity opposed mass turbine 8K and metal sphere respectively The silver gravity facing heat turbine 8K, and geothermal power generation driven by CO2 emissions 0 fuel costs 0.

CO2排気0燃料費0の発電にして、理論最良タービン液体金属重力地熱発電や地熱発電等各種重力発電により、既存世界発電量の10倍発電量等として既存火力原子力発電を全廃し、安価な重力地熱発電蓄電池駆動等の、各種自動車類全盛や各種船舶類全盛や、電気使用の全面電化住宅全盛や工場電化全盛や温熱利用全盛等にして、理論最良タービンから実験結果最良タービンに移行し、異常気象の最大原因がCO2増大の場合、CO2排気0発電で地球温暖化防止して、人類絶滅を先送りする可能性があります。   CO2 exhaust 0 fuel cost 0 power generation, theoretical best turbine liquid metal gravity geothermal power generation, geothermal power generation and other gravity power generation, abolish existing thermal nuclear power generation as 10 times the existing world power generation, etc. Shifting from the theoretical best turbine to the best experimental result turbine, such as driving a geothermal power storage battery, etc. If the greatest cause of weather is CO2 increase, CO2 exhaust generation can prevent global warming and postpone human extinction.

0:真空、 1:発電機、 1A:水銀排気検査室、 1B:酸素量増大手段、 1C:アルコール冷熱、 1D:燃料噴射ポンプ、 1F:復水ポンプ、 1G:熱ポンプ、 1H:揚水ポンプ、 1J:揚水装置、 1Y:燃焼器、 1b:燃料、 1c:比重大物質、 1d:水銀、 1e:被覆鋼球(衝撃低減手段2Gで被覆) 1e:被覆水銀(球形のステンレス等耐久材や衝撃低減手段2Gで被覆) 1g:重力加速部、 1h:横軸、 2:太陽光加熱器(長レンズで太陽光を傾斜回転して追跡) 2a:水復水器、 2a:復水冷却器、 2b:太陽熱増大吊橋(吊具左右を上下して長レンズ複数段で太陽光を傾斜回転して追跡) 2c:断熱材、 2d:長レンズ、 2e:水面、 2f:吊具左、 2g:吊具右、 2h:海水冷却器、 2z:地熱空気加熱器、 2A:耐熱材、 2B:熱吸収材、 2C:圧縮熱回収器、 2D:出力増大手段、 2E:出力増大球を(合金含む白金球や被覆白金球や金球や被覆金球や鉛球や被覆鉛球や銀球や被覆銀球やタングステン球や被覆タングステン球や鋼球や被覆鋼球やタンタル球や被覆タンタル球やモリブデン球や被覆モリブデン球や鋳鉄球や被覆鋳鉄球等各種金属球や各種被覆金属球とし) 2F:増大球上昇装置、 2G:衝撃低減手段(小径球・潤滑油類・不燃液体類・ゴム類・各種合成樹脂類等の被覆) 2H:冷熱復水器、 2J:液体金属熱交換器、 2K:潤滑性材料、 2X:空気熱交換器、 2Y:水熱交換器、 2Z:水銀熱交換器、 3:摩擦損失低減手段(撥水作用や加熱高温手段や被覆等最適利用公知技術で摩擦損失を低減) 3A:撥水作用(水との摩擦損失低減手段) 3B:加熱高温手段(電気抵抗や電磁加熱等既存技術で高温にする) 3C:冷熱回収手段、 3E:衝撃低減材料(水銀・液体金属・水) 3G:撥水作用(水銀との摩擦損失低減手段) 4A:タービン翼断面(既存断面) 4B:タービン翼断面(出力面湾曲少断面) 4C:タービン翼断面(出力面直線断面) 4D:タービン翼断面(出力反対面直線断面) 4E:タービン翼断面(出力反対面湾曲少断面) 4F:タービン翼断面(既存の反対断面) 4X:タービン翼断面(4A〜4Fより選択断面) 5C:空気排気室、 6:ノズル、 6a:ノズル噴射部、 6b:ノズル噴射部、 6d:ノズル噴射部、 6z:水噴射ポンプ、 6A:過熱蒸気噴射ノズル、 6B:液体鉛噴射ポンプ、 6F:圧縮空気噴射ノズル、 6L:液体金属噴射ポンプ、 6M:金属噴射ポンプ、 6X:燃料噴射ノズル、 6Y:燃焼ガス噴射ノズル、 6Z:水銀(液体金属)噴射ポンプ、 7:燃料噴射弁、 7A:プロペラ、 7B:回転翼、 7C:スクリュー、 7E:回転腕翼、 8a:全動翼弾み車ガスタービン、 8b:全動翼弾み車水タービン、 8c:タービン翼、 8d:側板、 8e:円筒胴、 8E:全動翼弾み車水銀タービン、8F:全動翼弾み車重力タービン、 8G:竪型全動翼液体金属太陽熱タービン、 8K:液体金属重力対向タービン、8K:対向直列全動翼弾み車タービン、 8L:直列全動翼弾み車タービン、 8M:食込直列全動翼弾み車タービン、 10:船体、 10A:船室、 10a:拡径圧縮室、10b:操縦室、 10c:制御室、 10d:客室、 10e:貨物室、 11A:隔壁、 11B:水室 11C:空気室、 11D:真空室、 16:クランク軸、16A:水平軸、 21:拡径ピストン、24:燃焼ガス制御弁、 24A:圧縮空気制御弁、 25:過熱蒸気制御弁、 25B:高温水制御弁、 25a:吸気弁、 25b:燃料制御弁、 28a:空気、 28a:内部空気、 28a:空気管空気、 28b:圧縮空気熱量、 28A:吸入空気路、 28B:空気路入口、 37a:着磁摩擦車、 37b:内着磁摩擦車、 38a:飛行胴、 38b:飛行翼、 38c:飛行尾翼、 38d:垂直翼、 38e:翼前縁心、 38g:水上翼、 38h:浮上艇、 38A:重力飛行機、 38B:空気吸引噴射ウォータージェット船舶、 38C:水吸引噴射船舶、 39A:太陽熱重力飛行機、 39A:液体金属重力太陽熱宇宙往還機、 39B:太陽熱重力回転飛行機、 39B:液体金属重力太陽熱飛行機、 39C:太陽熱重力ヘリコプター、 39C:液体金属重力太陽熱飛行船舶、 39C:金属球水重力太陽熱飛行船舶、 39D:スクリュー船舶、 39D:液体金属重力太陽熱船舶、 39F:宇宙往還機、 39G:宇宙往還飛行船舶、 39C:飛行船舶、 40A:方向舵、 46:磁石部、 49:燃焼ガス、 49B:煙突燃焼ガス熱量、 49C:工場使用熱量、 50:過熱蒸気、 51:空気抽出器、 52a:水、 52b:水(太陽光で温度が変る水) 52b:高温水、 52d:温熱、 52d:水温熱、 52d:過熱蒸気温熱、 52e:冷熱、 52e:水冷熱、 52e:圧縮空気冷熱、 52e:アルコール冷熱、 52e:氷冷熱、 55:歯車式同期装置(磁気摩擦同期装置を含む) 55B:磁気摩擦変速装置(歯車式及び送水ポンプ兼用を含む) 55Y:歯車式変速装置(既存変速機から選択) 60A:内側軸装置、 60B:外側軸装置、 60C:内側動翼群、 60D:外側動翼群、 77B:筒形外箱、 77D:ウォータージェット外箱、 77F:噴射部外箱、 77G:円筒回転部、 77a:タービン外箱、 78K:合体機関噴射部、 78S:合体機関噴射部(スクラムジェット+蒸気タービン他) 78T:合体機関噴射部(スクラムジェット+蒸気タービン他) 78U:合体機関噴射部(スクラムジェット+蒸気タービン他) 78V:合体機関噴射部、 78X:合体機関噴射部(78S78T78U78Vがら選択) 79K:合体機関噴射部、 79M:ウォータージェット、 79S:ウォータージェット、 79T:ウォータージェット、 79U:ウォータージェット(水吸引噴射) 79V:ウォータージェット(79S79Tから選択) 79X:ウォータージェット(水吸引噴射) 79Y:ウォータージェット(空気吸引噴射) 80:軸受、 80a:推力軸受、 80A:継手、 80B:締付具、 81:支軸、 81a:支点、 84:二重反転磁気摩擦動力伝達装置(歯車式及び送水ポンプ兼用を含む) 84Y:二重反転歯車装置(既存技術) 94:固定外箱、 94A:外箱垂直部、 95:高温水溜、 95a:燃焼ガス溜、 95b:圧縮空気溜、 95c:過熱蒸気溜、 95A:吸水路、 95B:燃料溜、 96A:送水路、 97:逆止弁、103:冷熱回収器、   0: Vacuum, 1: Generator, 1A: Mercury exhaust test room, 1B: Oxygen amount increasing means, 1C: Alcohol cooling, 1D: Fuel injection pump, 1F: Condensate pump, 1G: Heat pump, 1H: Pumping pump, 1J: Pumping device, 1Y: Combustor, 1b: Fuel, 1c: Specific critical material, 1d: Mercury, 1e: Coated steel ball (covered with impact reducing means 2G) 1e: Coated mercury (durable material such as spherical stainless steel and impact 1g: Gravity acceleration part, 1h: Horizontal axis, 2: Solar heater (tracking by tilting and rotating sunlight with long lens) 2a: Water condenser, 2a: Condensate cooler, 2b: Solar thermal augmentation suspension bridge (tracking by tilting and rotating sunlight with a long lens multiple steps up and down the hanging tool left and right) 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: hanging tool left, 2g: hanging Right, 2h: Seawater cooler, z: geothermal air heater, 2A: heat-resistant material, 2B: heat absorbing material, 2C: compression heat recovery device, 2D: output increasing means, 2E: output increasing sphere (platinum sphere including alloy, coated platinum sphere, gold sphere, Coated gold ball, lead ball, coated lead ball, silver ball, coated silver ball, tungsten ball, coated tungsten ball, steel ball, coated steel ball, coated tantalum ball, coated tantalum ball, molybdenum ball, coated molybdenum ball, cast iron ball, coated cast iron ball 2F: Increasing sphere raising device, 2G: Impact reduction means (Coating with small-diameter spheres, lubricating oils, nonflammable liquids, rubbers, various synthetic resins, etc.) 2H: Cooling recovery 2J: liquid heat exchanger, 2X: air heat exchanger, 2Y: water heat exchanger, 2Z: mercury heat exchanger, 3: friction loss reducing means (water repellent action and heating) Friction using optimal techniques such as high temperature means and coating 3A: Water repellent action (means for reducing friction loss with water) 3B: High temperature heating means (high temperature using existing technology such as electrical resistance and electromagnetic heating) 3C: Cold recovery means 3E: Impact reducing material (mercury・ Liquid metal / water 3G: Water repellent action (means for reducing friction loss with mercury) 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section (output surface curved small cross section) 4C: Turbine blade cross section (straight line of output surface) Cross section) 4D: Turbine blade cross section (output opposite surface linear cross section) 4E: Turbine blade cross section (output opposite surface curved small cross section) 4F: Turbine blade cross section (existing opposite cross section) 4X: Turbine blade cross section (selected cross section from 4A to 4F) 5C: Air exhaust chamber, 6: Nozzle, 6a: Nozzle injection part, 6b: Nozzle injection part, 6d: Nozzle injection part, 6z: Water injection pump, 6A: Superheated steam injection nozzle, 6B: Liquid Lead injection pump, 6F: compressed air injection nozzle, 6L: liquid metal injection pump, 6M: metal injection pump, 6X: fuel injection nozzle, 6Y: combustion gas injection nozzle, 6Z: mercury (liquid metal) injection pump, 7: fuel Injection valve, 7A: propeller, 7B: rotary blade, 7C: screw, 7E: rotary arm blade, 8a: full blade impeller gas turbine, 8b: full blade impeller water turbine, 8c: turbine blade, 8d: side plate, 8e : Cylindrical cylinder, 8E: Full blade impeller mercury turbine, 8F: Full blade impeller gravity turbine, 8G: Vertical full blade liquid metal solar turbine, 8K: Liquid metal gravity opposed turbine, 8K: Opposite series full blade impeller Turbine, 8L: Inline full blade impeller turbine, 8M: Intruded inline full impeller turbine, 10: Hull, 10A: Cabin, 10a: Expanded diameter Compression chamber, 10b: cockpit, 10c: control room, 10d: cabin, 10e: cargo compartment, 11A: partition wall, 11B: water chamber, 11C: air chamber, 11D: vacuum chamber, 16: crankshaft, 16A: horizontal shaft, 21: Expanded piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Superheated steam control valve, 25B: High temperature water control valve, 25a: Intake valve, 25b: Fuel control valve, 28a: Air, 28a : Internal air, 28a: Air tube air, 28b: Compressed air calorie, 28A: Intake air path, 28B: Air path inlet, 37a: Magnetized friction wheel, 37b: Inner magnetized friction wheel, 38a: Flight trunk, 38b: Flight wing, 38c: Flight tail, 38d: Vertical wing, 38e: Wing front edge, 38g: Water wing, 38h: Levitation boat, 38A: Gravity airplane, 38B: Air suction jet wo Tarjet vessel, 38C: Water suction jet vessel, 39A: Solar thermal gravity plane, 39A: Liquid metal gravity solar thermal spacecraft, 39B: Solar thermal gravity rotating plane, 39B: Liquid metal gravity solar thermal plane, 39C: Solar thermal gravity helicopter, 39C: Liquid metal gravity solar thermal ship, 39C: Metal sphere water gravity solar thermal ship, 39D: Screw ship, 39D: Liquid metal gravity solar ship, 39F: Spacecraft, 39G: Spacecraft, 39C: Aircraft, 40A: Rudder, 46: Magnet part, 49: Combustion gas, 49B: Chimney combustion gas calorie, 49C: Factory calorie, 50: Superheated steam, 51: Air extractor, 52a: Water, 52b: Water (Temperature changes with sunlight) Water) 52b: Hot water, 52d: Heat, 52d: Water heat, 52d: Superheated steam Heat, 52e: Cold heat, 52e: Water-cooled heat, 52e: Compressed air cold heat, 52e: Alcohol cold heat, 52e: Ice-cooled heat, 55: Gear type synchronous device (including magnetic friction synchronous device) 55B: Magnetic friction transmission device (gear type) 55Y: Gear-type transmission (selected from existing transmission) 60A: Inner shaft device, 60B: Outer shaft device, 60C: Inner blade group, 60D: Outer blade group, 77B: Cylindrical Outer box, 77D: Water jet outer box, 77F: Injection part outer box, 77G: Cylindrical rotating part, 77a: Turbine outer box, 78K: Combined engine injection part, 78S: Combined engine injection part (scramjet + steam turbine, etc.) 78T: Combined engine injection part (scramjet + steam turbine, etc.) 78U: Combined engine injection part (scramjet + steam turbine, etc.) 7 V: Combined engine injection unit, 78X: Combined engine injection unit (selected from 78S78T78U78V) 79K: Combined engine injection unit, 79M: Water jet, 79S: Water jet, 79T: Water jet, 79U: Water jet (water suction injection) 79V : Water jet (selected from 79S79T) 79X: Water jet (water suction injection) 79Y: Water jet (air suction injection) 80: Bearing, 80a: Thrust bearing, 80A: Joint, 80B: Fastener, 81: Support shaft, 81a: fulcrum, 84: counter rotating magnetic friction power transmission device (including gear type and water pump combined use) 84Y: counter rotating gear device (existing technology) 94: fixed outer casing, 94A: outer casing vertical section, 95: High temperature water reservoir, 95a: combustion gas reservoir, 95b: compressed air Reservoir, 95c: superheated steam reservoir, 95A: water path, 95B: fuel reservoir, 96A: feed water channel, 97: check valve, 103: cold heat recovery unit,

Claims (5000)

食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reduction material are raised and stored with increasing ball rising device (2F) + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Recovering the exhaust heat from the cold turbine exhaust + Driving the turbine diameter of the full bite turbine impeller turbine + Double the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) is converted to CO20 power generation by 5 times geothermal power generation + Liquid Metal and Specific Material Impact Reduction Materials are elevated and preserved by Intensifying Ball Lifting Device (2F) + Geothermal Compressed heating air to heat the geothermal heated air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives the turbine diameter of the full bite turbine blade turbine 3 times + Geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) is converted to CO20 power generation by 6 times geothermal power generation + Increased sphere rising device (2F) raises liquid metal and specific material impact reduction material + geothermal heat Compressing the heated air and heating the geothermal heating air + Compressed heat recovery + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the bite turbine blade wheel + Geothermal air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) is converted to CO20 power generation by geothermal power generation of 7 times Compressing the heated air to heat the geothermal heated air Compressed heat recovery + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter 5 times of the bite turbine blade wheel + Boring machine for geothermal air heater (2z) Various energy conservation cycle coalescing engines inserted into drill holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) is converted to CO20 power generation by geothermal power generation 8 times + increase sphere rising device (2F) to save liquid metal and specific material impact reduction material + geothermal Compressed heating air to heat the geothermal heated air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives twice the turbine diameter of the bite turbine blade + Turbine air heater (2z) boring machine Various energy conservation cycle coalescing engines inserted into drill holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 9 times the same diameter and the same shape and the same length of geothermal power generation turbine in one stage + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with two stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 11 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 4 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4E) 14 times the same diameter, the same shape, and the same length geothermal power generation turbine in 6 stages + the storage battery drive, the electric drive and the use of thermal energy Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 7 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4A) 16 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 8 stages Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 17 times the same diameter, approximately the same shape and the same length of geothermal power generation turbine in 9 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) 18 times the same diameter and the same shape and the same length as the geothermal power generation turbine in 10 stages + the storage battery drive, the electric drive, and the warm use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 11 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 12 stages + storage battery driven various vessel prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine Core geothermal turbine blade cross section (4F) 21 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 13 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 14 stages + storage battery powered various ship prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 15 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 16 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 17 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbines in 18 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation turbines in 19 stages + the storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を3倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 20 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を4倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 21 stages + storage battery drive various vessel prime + increase sphere rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を5倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 22 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を6倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 23 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を7倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 24 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を8倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine Core geothermal turbine blade cross section (4F) 8 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を9倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を10倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 27 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を11倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 28 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を12倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 29 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を13倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 13 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を14倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 31 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を15倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 32 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を16倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 33 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を17倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を18倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 35 stages + storage battery driven various ships prime + increasing ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を19倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 36 stages + storage battery driven various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を20倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 37 stages + storage battery powered various ships primed In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を21倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 38 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を22倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 39 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を23倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 23 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を24倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4D) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 41 stages + storage battery drive various vessel prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を25倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) 25 times the same diameter and the same shape and the same length of geothermal power generation In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を26倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 43 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + Compressed air is recovered by compressing the air heated by geothermal heat. Various energy storage cycle coalescing engine as a power generation method to recover and use the. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を2倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4A) double-same structure of approximately the same shape and the same length geothermal power generation turbine in 44 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + Compressed air is recovered by compressing the air heated by geothermal heat. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を3倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4B) 45 times the same diameter and the same shape and the same length geothermal power generation turbine + storage battery drive to make all kinds of ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を4倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4C) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of an all-rotor impeller blade turbine, and various energies with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を5倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) 5 times the same diameter and the same shape and the same length of geothermal power generation turbines are provided in 47 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives the turbine diameter 4 times of the turbine blades of the full-size blade impeller. + Various energy including geothermal air heater (2z) inserted into the drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を6倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 6 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 48 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 5 times the turbine diameter of the bite turbine blade + Wheel turbine + Various energies equipped with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を7倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 49 stages + storage battery drive, electric drive and warm use prime heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives twice the turbine diameter of a full-size blade impeller turbine driven + Geothermal air heater (2z) inserted into borehole drilling holes Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を8倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 50 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of an all-rotor impeller blade turbine, and various energies with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を9倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 9 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure with 51 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を10倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross-section (4C) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を11倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 53 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を12倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine with 54 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を13倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 55 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を14倍の同径略同形同長地熱発電タービンを56段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 56 stages + electric drive prime + compressing the heating air with geothermal Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Drives 5 times the turbine diameter of biting full blade impeller turbine + Geothermal air heater (2z) inserted into drilling hole Energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を15倍の同径略同形同長地熱発電タービンを57段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 57 stages + electric drive prime + compressed air heated by geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Drives twice the turbine diameter of a full-size blade impeller turbine, and inserts a geothermal air heater (2z) into a drilling hole Energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を16倍の同径略同形同長地熱発電タービンを58段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Erosion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 58 stages + electric drive prime + compressed air heated by geothermal Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Drives the turbine diameter of a full blade blade turbine driven by a bite + Various types of geothermal air heater (2z) inserted into a boring machine drilling hole Energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を17倍の同径略同形同長地熱発電タービンを59段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 17 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided 59 stages + electric drive prime + heating air compressed by geothermal Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Drives 4 times the turbine diameter of the bite turbine blade wheel + Geothermal air heater (2z) is inserted into the boring machine drilling hole Energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を18倍の同径略同形同長地熱発電タービンを60段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 60 stages + electric drive prime + compresses the air heated by geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Drives 5 times the turbine diameter of biting full blade impeller turbine + Geothermal air heater (2z) inserted into drilling hole Energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を19倍の同径略同形同長地熱発電タービンを61段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which 61 parts of the same-diameter and same-length geothermal turbine with 19 times the cross-section (4F) of the core geothermal turbine blades (4F) is provided in 61 stages and the output increasing sphere (2E) is a small diameter + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Recovering the exhaust heat from the cold turbine exhaust + Driving the turbine diameter of the full bite turbine impeller turbine + Double the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を20倍の同径略同形同長地熱発電タービンを62段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which the cross section (4A) of the core geothermal turbine blades (4A) is 20 times the same diameter, approximately the same shape and the same length, and a geothermal power generation turbine provided in 62 stages and the output increasing sphere (2E) is reduced in diameter + Compressing the air heated by geothermal heat and recovering the compressed heat by heating the geothermal heated air + Recovering the heat from the cold turbine exhaust + Driving the turbine diameter of the full bite blade turbine driving 3 times + Geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を21倍の同径略同形同長地熱発電タービンを63段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which the geothermal turbine blade cross-section (4B) of the cored liquid metal gravity cooling / cooling turbine has 21 times the same diameter, approximately the same shape, and the same length, and a geothermal power generation turbine provided in 63 stages + the output increasing sphere (2E) as a small diameter + Compressing air heated by geothermal heat and heating compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 4 times the turbine diameter of a full-size blade impeller turbine + geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を22倍の同径略同形同長地熱発電タービンを64段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which the geothermal turbine blade cross-section (4C) of the cored liquid metal gravity cooling / cooling turbine is 22 times the same diameter and the same shape and the same length and the geothermal power generation turbine is provided in 64 stages + the output increasing sphere (2E) as a small diameter + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Compressing the heat from the cold turbine exhaust + Driving the turbine diameter 5 times the bite turbine blade wheel + Geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を23倍の同径略同形同長地熱発電タービンを65段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure where the geothermal turbine blade cross-section (4D) of the cored liquid metal gravity cooling / cooling turbine has 23 times the same diameter, approximately the same shape, and the same length, and a geothermal power generation turbine provided in 65 stages + the output increasing sphere (2E) as a small diameter + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Recovering the exhaust heat from the cold turbine exhaust + Driving the turbine diameter of the full bite turbine impeller turbine + Double the geothermal air heater (2z) Various energy storage cycle coalescing engines inserted into drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を24倍の同径略同形同長地熱発電タービンを66段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 66 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を25倍の同径略同形同長地熱発電タービンを67段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 25 times the same diameter and the same shape and the same length of geothermal power turbine installed in 67 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を26倍の同径略同形同長地熱発電タービンを68段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in 68 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を2倍の同径略同形同長地熱発電タービンを69段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with double the same diameter and the same shape and the same length of geothermal power generation turbine provided in 69 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を3倍の同径略同形同長地熱発電タービンを70段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 70 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を4倍の同径略同形同長地熱発電タービンの71段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   71-stage structure of geothermal turbine blade cross section (4D) of the cored geothermal turbine with 4 times the same diameter and the same shape and the same length as the encroaching liquid-powered vehicle-powered vehicles The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を5倍の同径略同形同長地熱発電タービンの72段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   72-stage structure of a geothermal turbine blade section (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を6倍の同径略同形同長地熱発電タービンの73段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 73 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を7倍の同径略同形同長地熱発電タービンの74段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 74 stage structure + storage battery drive various vehicle prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を8倍の同径略同形同長地熱発電タービンの75段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   75-stage structure of geothermal turbine blade section (4B) with the same diameter and the same shape and the same length of geothermal turbine blades of the encroaching liquid metal gravity cold and cold turbines + storage battery-powered automobiles assortment + augmenting sphere ascending device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescing engine equipped with 4x diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を9倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 76 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を10倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) 10 times the same diameter, approximately the same shape, the same length geothermal power turbine with 77 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を11倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 78 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を12倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を13倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を14倍の同径略同形同長地熱発電タービンを81段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) with an engraving liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 14 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 81 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を15倍の同径略同形同長地熱発電タービンを82段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 82 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を16倍の同径略同形同長地熱発電タービンを83段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 83 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を17倍の同径略同形同長地熱発電タービンを84段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 17 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 84 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine 5x drive + geothermal air heater (2z) inserted into the boring machine excavation hole various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を18倍の同径略同形同長地熱発電タービンを85段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 85 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を19倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 86 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を20倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4B) with 20 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 87 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を21倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4C) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 88 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を22倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 89 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を23倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 90 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を24倍の同径略同形同長地熱発電タービンを91段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 24 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine installed in 91 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を25倍の同径略同形同長地熱発電タービンを92段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 92 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を26倍の同径略同形同長地熱発電タービンを93段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 93 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を2倍の同径略同形同長地熱発電タービンを94段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 94 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を3倍の同径略同形同長地熱発電タービンを95段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 95 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescing engine equipped with 4x diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を4倍の同径略同形同長地熱発電タービンの96段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   96-stage structure of a geothermal turbine blade section (4E) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of a biting liquid metal gravity cold / hot turbine + storage battery-powered automobiles assortment + an increasing sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を5倍の同径略同形同長地熱発電タービンの97段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   97 stage structure of geothermal turbine blade cross section (4F) of cored geothermal turbine with 5 times the same diameter and the same shape and the same length of geothermal power turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles with double diameter driving + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を6倍の同径略同形同長地熱発電タービンの98段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   98-stage structure of geothermal turbine blade cross section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を7倍の同径略同形同長地熱発電タービンの99段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 99 stage structure + storage battery drive various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を8倍の同径略同形同長地熱発電タービンの100段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   100-stage structure of geothermal turbine blade cross-section (4C) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を9倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 9 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 101 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を10倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) core diameter geothermal turbine blade section (4E) of 10 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を11倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 104 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 13 times the same diameter and the same shape and the same length of geothermal power generation Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを106段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 14 times the same diameter and approximately the same shape and the same length geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを107段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 107 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを108段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 16 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 108 stages + Factory electrification prime + Increase ball riser (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを109段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 109 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを110段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) with an engraving liquid metal gravity cold-heat turbine core geothermal turbine blade cross section (4A) with 18 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 110 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 19 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 111 stages + storage battery drive, electric drive, and heat application prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 112 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbines in 113 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4E) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4F) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 115 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを116段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 116 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を25倍の同径略同形同長地熱発電タービンを117段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 117 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを118段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 118 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを119段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 119 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを120段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with three times the same diameter and the same shape and the same length geothermal power generation turbine installed in 120 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンの1段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   1-stage structure of the geothermal turbine blade section (4F) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling and heat-generating battery powered cars The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンの2段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Double-stage structure of geothermal turbine blade cross-section (4A) of cored geothermal turbines with the same diameter and the same shape and the same length of geothermal power generation turbines + accelerating various battery-powered vehicles + Intensifying sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンの3段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Three-stage structure of the geothermal turbine blade section (4B) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンの4段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   4 stage structure of the geothermal turbine blade cross section (4C) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンの5段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   5 stage structure of geothermal turbine blade section (4D) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) of the encroaching liquid metal gravity cold / heat turbine with 9 times the same diameter and the same shape and the same length of geothermal power generation turbine in 6 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) 14 times the same diameter, approximately the same shape and the same length, and the geothermal power generation turbine in 10 stages + the storage battery drive, the electric drive, and the warm use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを11段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 11 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを12段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 12 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを13段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 13 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを14段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 14 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを15段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 15 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4C) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 16 stages + the storage battery drive, the electric drive, and the heat application. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 18 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4F) 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 19 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4A), which is 24 times the same diameter, and the same length and length of geothermal power generation turbines, provided in 20 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を25倍の同径略同形同長地熱発電タービンを21段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 21 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを22段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 22 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを23段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with the same diameter, approximately the same shape, and the same length of geothermal power turbines in 23 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを24段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbines provided in 24 stages + full electrification house prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンを25段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 25 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンの26段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   26-stage structure of a geothermal turbine blade section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンの27段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 27-stage structure + storage battery-powered car priming + increasing sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンの28段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   28-stage structure of a geothermal turbine blade section (4C) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンの29段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   29-stage structure of a geothermal turbine blade section (4D) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンの30段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   30-stage structure of the geothermal turbine blade section (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / cooling turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 31 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を11倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure of 32 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を12倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 33 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を13倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 34 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を14倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 35 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を15倍の同径略同形同長地熱発電タービンを36段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + factory electrification prime + increase sphere lift device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を16倍の同径略同形同長地熱発電タービンを37段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 16 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 37 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を17倍の同径略同形同長地熱発電タービンを38段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4A) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 38 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を18倍の同径略同形同長地熱発電タービンを39段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere riser (2F) with an engraving liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 18 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 39 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を19倍の同径略同形同長地熱発電タービンを40段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 40 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を20倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with 20 times the same diameter and the same shape and length of geothermal power generation turbine in 41 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を21倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbines in 42 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を22倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を23倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and length of geothermal power turbines in 44 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を24倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 24 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 45 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を25倍の同径略同形同長地熱発電タービンを46段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 46 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を26倍の同径略同形同長地熱発電タービンを47段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 26 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 47 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を2倍の同径略同形同長地熱発電タービンを48段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を3倍の同径略同形同長地熱発電タービンを49段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 49 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を4倍の同径略同形同長地熱発電タービンを50段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 50 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の同径略同形同長地熱発電タービンの51段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   51-stage structure of a geothermal turbine blade section (4B) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の同径略同形同長地熱発電タービンの52段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 52-stage structure + storage battery drive various cars prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の同径略同形同長地熱発電タービンの53段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 53 stage + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の同径略同形同長地熱発電タービンの54段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 54 stage structure + storage battery drive various vehicle prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンの55段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 55 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4A) of the erosion liquid metal gravity cooling / cooling turbine with 10 times the same diameter and the same shape and the same length of geothermal power generation turbine in 56 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 58 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure with 59 stages + storage battery drive, electric drive, and warm use of heat + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 60 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを61段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 61 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを62段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere riser (2F) with an engraving liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4A) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 62 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを63段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 17 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 63 stages Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを64段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 64 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを65段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 65 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 66 stages + the storage battery drive, the electric drive, and the warm use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 67 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 68 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 69 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 70 stages + accelerating storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを71段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 71 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを72段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 72 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを73段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 73 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を3倍の同径略同形同長地熱発電タービンを74段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 74 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を4倍の同径略同形同長地熱発電タービンを75段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 75 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を5倍の同径略同形同長地熱発電タービンの76段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   76-stage structure of the geothermal turbine blade section (4C) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を6倍の同径略同形同長地熱発電タービンの77段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 77 stage structure + storage battery drive various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を7倍の同径略同形同長地熱発電タービンの78段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を8倍の同径略同形同長地熱発電タービンの79段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) 79-stage structure of geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を9倍の同径略同形同長地熱発電タービンの80段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of a geothermal turbine blade section (4A) of a cored geothermal turbine with the same diameter and approximately the same shape and length of an encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を10倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 81 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を11倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 82 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を12倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を13倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 84 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を14倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4F) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を15倍の同径略同形同長地熱発電タービンを86段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 86 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を16倍の同径略同形同長地熱発電タービンを87段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 87 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を17倍の同径略同形同長地熱発電タービンを88段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 17 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 88 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を18倍の同径略同形同長地熱発電タービンを89段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 89 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を19倍の同径略同形同長地熱発電タービンを90段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 90 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を20倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 91 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を21倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) with 21 times the same diameter, approximately the same shape, and the same length of geothermal power generation turbine in 92 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を22倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 93 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を23倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を24倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を25倍の同径略同形同長地熱発電タービンを96段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 96 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を26倍の同径略同形同長地熱発電タービンを97段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 26 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 97 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を2倍の同径略同形同長地熱発電タービンを98段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4A) with twice the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 98 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を3倍の同径略同形同長地熱発電タービンを99段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 99 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を4倍の同径略同形同長地熱発電タービンを100段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4C) 4 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 100 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を5倍の同径略同形同長地熱発電タービンの101段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   101-stage structure of a geothermal turbine blade section (4D) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を6倍の同径略同形同長地熱発電タービンの102段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 102 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を7倍の同径略同形同長地熱発電タービンの103段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generator 103 stage structure + storage battery drive various automobile prime + increasing sphere ascending device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を8倍の同径略同形同長地熱発電タービンの104段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 104 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を9倍の同径略同形同長地熱発電タービンの105段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4B) 105 times structure of geothermal power generation turbine with the same diameter and shape of the same diameter 9 times + storage battery drive various automobiles primed + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を10倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4C) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 106 stages + the storage battery drive, the electric drive, and the warm use of the heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を11倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) 11 times the same diameter and the same shape and the same length of geothermal power generation turbines in 107 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を12倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 108 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を13倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 109 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を14倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 14 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 110 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を15倍の同径略同形同長地熱発電タービンを111段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 111 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を16倍の同径略同形同長地熱発電タービンを112段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 112 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を17倍の同径略同形同長地熱発電タービンを113段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 113 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を18倍の同径略同形同長地熱発電タービンを114段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 114 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を19倍の同径略同形同長地熱発電タービンを115段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4F) 19 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 115 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を20倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 20 times the same diameter and approximately the same shape and length of geothermal power turbines in 116 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を21倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 117 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を22倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 118 stages + accelerating storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を23倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine 119 stage structure + storage battery drive, electric drive and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を24倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 24 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を25倍の同径略同形同長地熱発電タービンを1段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 25 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in one stage The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を26倍の同径略同形同長地熱発電タービンを2段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbines are provided in two stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を2倍の同径略同形同長地熱発電タービンを3段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 3 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を3倍の同径略同形同長地熱発電タービンを4段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 4 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を4倍の同径略同形同長地熱発電タービンを5段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 5 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を5倍の同径略同形同長地熱発電タービンの6段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   6-stage structure of geothermal turbine blade cross-section (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を6倍の同径略同形同長地熱発電タービンの7段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   7-stage structure of a geothermal turbine blade section (4F) with the same diameter and the same shape and the same length of geothermal turbine blades of the encroaching liquid metal gravity cold and cold turbine + storage battery-powered automobiles assortment + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を7倍の同径略同形同長地熱発電タービンの8段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of a geothermal turbine blade section (4A) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を8倍の同径略同形同長地熱発電タービンの9段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   9-stage structure of a geothermal turbine blade section (4B) of the cored geothermal turbine with an 8 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を9倍の同径略同形同長地熱発電タービンの10段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Ten-stage structure of a geothermal turbine blade section (4C) with a core of 9 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を10倍の同径略同形同長地熱発電タービンの11段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 11-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を11倍の同径略同形同長地熱発電タービンの12段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 11 times the same diameter, approximately the same shape and the same length geothermal power generation turbine 12-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を12倍の同径略同形同長地熱発電タービンの13段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) is 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 13 stage structure + battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を13倍の同径略同形同長地熱発電タービンの14段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   14-stage structure of a geothermal turbine blade section (4A) of a cored geothermal turbine with a 13 times the same diameter and the same shape and the same length of geothermal power turbines + a storage battery drive prime + liquid metal with an increasing ball rising device (2F) The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を14倍の同径略同形同長地熱発電タービンの15段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2〜12倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 15 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal And increase the material impact reduction material + compress the geothermal heating air and heat the geothermal heating air compression heat recovery + compression heat recovery of the cold turbine exhaust + turbine diameter of the full bite turbine impeller turbine 2 Various energy storage cycle coalescence engine equipped with 12 times drive + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を15倍の同径略同形同長地熱発電タービンの16段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine 16 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を16倍の同径略同形同長地熱発電タービンの17段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 17 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を17倍の同径略同形同長地熱発電タービンの18段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 18-stage structure of the same diameter approximately the same shape and the same length geothermal power turbine + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を18倍の同径略同形同長地熱発電タービンの19段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) is 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 19 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を19倍の同径略同形同長地熱発電タービンの20段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 20 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を20倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4B) 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 21 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を21倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with 21 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 22 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を22倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 23 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を23倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 24 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を24倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 25 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を25倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4A) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 26 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を26倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 27 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を2倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with the same diameter and the same shape and the same length of geothermal power generation turbines in 28 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を3倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 29 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を4倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を5倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 31 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を6倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 32 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を7倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 33 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を8倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を9倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 35 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を10倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 36 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を11倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 37 stages + storage battery drive various vessel prime + increase sphere rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 38 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 13 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine provided in 39 stages + storage battery powered various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 14 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 41 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 42 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 43 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 44 stages + storage battery driven various ships prime + increasing ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4B) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided 45 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 46 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4D) 21 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 47 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 48 stages + storage battery powered various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbines in 50 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4b)を25倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4b) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 51 stages + storage battery powered various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 52 stages + storage battery drive to make all kinds of ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with the same diameter approximately the same shape and the same length geothermal power generation turbine in 53 stages + the storage battery drive to make various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 54 stages + storage battery-powered various vessel prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 55 stages + storage battery drive various ships prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive, and warm energy use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives the turbine diameter of the full bite turbine blade turbine 3 times + Geothermal air heater (2z) in the drilling hole Various energy storage cycle coalescence engine with insert. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat geothermal heated air Compressed heat recovery + Compressed heat recovery from chilled turbine exhaust + Drives 4x turbine diameter of biting full bucket impeller turbine + Geothermal air heater (2z) in drilling hole Various energy storage cycle coalescence engine with insert. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 7 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 58 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery for the exhaust from the cold turbine + Drives the turbine diameter of the full bite turbine blade turbine 5 times + Drives the geothermal air heater (2z) to the drilling hole Various energy storage cycle coalescence engine with insert. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) Eight times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 59 stages + Storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives the turbine diameter of the full-size blade rotor blade turbine twice + Geothermal air heater (2z) in the drilling hole Various energy storage cycle coalescence engine with insert. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 60 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives the turbine diameter of the full bite turbine blade turbine 3 times + Geothermal air heater (2z) in the drilling hole Various energy storage cycle coalescence engine with insert. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling turbine core geothermal turbine blade cross section (4F) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive and hot energy use prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を11倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine structure in 62 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を12倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4B) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 63 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を13倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4C) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 64 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を14倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 65 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を15倍の同径略同形同長地熱発電タービンを66段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 66 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を16倍の同径略同形同長地熱発電タービンを67段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 16 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 67 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を17倍の同径略同形同長地熱発電タービンを68段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 68 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を18倍の同径略同形同長地熱発電タービンを69段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 18 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 69 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を19倍の同径略同形同長地熱発電タービンを70段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 70 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を20倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 20 times the same diameter and the same shape and length of geothermal power generation turbine provided in 71 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を21倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 72 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を22倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 73 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を23倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4A) 23 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 74 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を24倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) with 24 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 75 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を25倍の同径略同形同長地熱発電タービンを76段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 25 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 76 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を26倍の同径略同形同長地熱発電タービンを77段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 77 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を2倍の同径略同形同長地熱発電タービンを78段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with double diameter of approximately the same shape and length of geothermal power generation turbine provided in 78 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を3倍の同径略同形同長地熱発電タービンを79段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 79 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を4倍の同径略同形同長地熱発電タービンを80段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 80 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の同径略同形同長地熱発電タービンの81段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 81-stage structure + storage battery drive various automobile prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の同径略同形同長地熱発電タービンの82段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4C) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 82 stage structure + storage battery driven various automobile primes + increasing sphere ascending device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の同径略同形同長地熱発電タービンの83段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 83 stage structure + storage battery drive various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の同径略同形同長地熱発電タービンの84段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 84 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンの85段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 85 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4A) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 11 times the same diameter and the same shape and the same length geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 12 times the same diameter and the same shape and the same length geothermal power generation structure with 88 stages + storage battery drive prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 89 stages + storage battery drive prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) 14 times the same diameter and the same shape and the same length geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを91段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4F) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 91 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを92段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 92 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを93段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 93 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを94段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 94 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを95段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 95 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 98 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 99 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) of the cored geothermal turbine with 24 times the same diameter and the same shape and the same length as the geothermal power generation turbine in 100 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを101段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 25 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 101 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを102段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and cold turbine core geothermal turbine blade cross section (4E) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 102 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを103段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 103 stages + full electrified house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を3倍の同径略同形同長地熱発電タービンを104段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 104 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を4倍の同径略同形同長地熱発電タービンを105段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4B) 4 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 105 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を5倍の同径略同形同長地熱発電タービンの106段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine 106 stage structure + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を6倍の同径略同形同長地熱発電タービンの107段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 107 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を7倍の同径略同形同長地熱発電タービンの108段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を8倍の同径略同形同長地熱発電タービンの109段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4F) is 8 times the same diameter, approximately the same shape and the same length of geothermal power generation turbine 109 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を9倍の同径略同形同長地熱発電タービンの110段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encrusted liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power turbine 110-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を10倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 111 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を11倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 112 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を12倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 113 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を13倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4E) 13 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を14倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 115 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を15倍の同径略同形同長地熱発電タービンを116段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4A) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 116 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を16倍の同径略同形同長地熱発電タービンを117段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 117 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を17倍の同径略同形同長地熱発電タービンを118段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 118 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を18倍の同径略同形同長地熱発電タービンを119段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 18 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 119 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を19倍の同径略同形同長地熱発電タービンを120段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 120 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を20倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in one stage + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を21倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 21 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in two stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を22倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を23倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4C) 23 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 4 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を24倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 24 times the same diameter, approximately the same shape and the same length of geothermal power generation turbine in 5 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を25倍の同径略同形同長地熱発電タービンを6段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 6 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を26倍の同径略同形同長地熱発電タービンを7段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 7 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を2倍の同径略同形同長地熱発電タービンを8段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Evaporating liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with twice the same diameter and approximately the same shape and length of geothermal power generator The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を3倍の同径略同形同長地熱発電タービンを9段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 9 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を4倍の同径略同形同長地熱発電タービンを10段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 10 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を5倍の同径略同形同長地熱発電タービンの11段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   11-stage structure of a geothermal turbine blade section (4D) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を6倍の同径略同形同長地熱発電タービンの12段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Twelve-stage structure of geothermal turbine blade section (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を7倍の同径略同形同長地熱発電タービンの13段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   13-stage structure of the geothermal turbine blade cross-section (4F) with the same diameter and the same shape and the same length of the geothermal turbine blades of the biting liquid metal gravity cold and hot turbine + storage battery driven various automobiles ascending + sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を8倍の同径略同形同長地熱発電タービンの14段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   14-stage structure of a geothermal turbine blade section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / cooling turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を9倍の同径略同形同長地熱発電タービンの15段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   15-stage structure of the geothermal turbine blade section (4B) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the encroachment of the various battery-driven vehicles The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を10倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4C) of the cored geothermal turbine with 10 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 16 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を11倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 17 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を12倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を13倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 19 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を14倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4A) with a 14 times the same diameter and the same shape and the same length of geothermal power generation turbines in 20 stages + the storage battery drive, electric drive, and the use of thermal energy + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を15倍の同径略同形同長地熱発電タービンを21段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 21 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を16倍の同径略同形同長地熱発電タービンを22段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 22 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を17倍の同径略同形同長地熱発電タービンを23段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4D) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 23 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を18倍の同径略同形同長地熱発電タービンを24段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4E) 18 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 24 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を19倍の同径略同形同長地熱発電タービンを25段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 25 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を20倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を21倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 27 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を22倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with 22 times the same diameter and the same shape and the same length of geothermal power turbines in 28 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を23倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 29 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を24倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) of the encroaching liquid metal gravity cooling / heating turbine with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine in 30 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を25倍の同径略同形同長地熱発電タービンを31段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 31 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を26倍の同径略同形同長地熱発電タービンを32段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 32 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を2倍の同径略同形同長地熱発電タービンを33段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with double the same diameter and the same shape and the same length geothermal power generation turbine provided in 33 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を3倍の同径略同形同長地熱発電タービンを34段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 34 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を4倍の同径略同形同長地熱発電タービンを35段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を5倍の同径略同形同長地熱発電タービンの36段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   36-stage structure of the geothermal turbine blade cross section (4E) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length of geothermal power turbine as the prime of various vehicles driven by the storage battery + Intensifying sphere ascending device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を6倍の同径略同形同長地熱発電タービンの37段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   37-stage structure of a geothermal turbine blade section (4F) with the same diameter and the same shape and the same length of geothermal turbine blades of a biting liquid metal gravity cold / heat turbine as a prime for various automobiles driven by storage batteries + a rising sphere lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を7倍の同径略同形同長地熱発電タービンの38段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F): 38-stage structure of geothermal turbine blade section (4A) of cored geothermal turbine with 7 times the same diameter and approximately the same shape and the same length of geothermal power generator The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を8倍の同径略同形同長地熱発電タービンの39段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   39-stage structure of a geothermal turbine blade section (4B) with the same diameter and the same shape and the same length of geothermal turbine blades as an encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を9倍の同径略同形同長地熱発電タービンの40段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   40-stage structure of the geothermal turbine blade cross section (4C) of the cored geothermal turbine with 9 times the same diameter and the same shape and the same length of geothermal power turbine as the prime of various vehicles driven by the storage battery + Intensifying ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を10倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) 10 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 41 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を11倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 11 times the same diameter and approximately the same length and geothermal power generation turbine structure in 42 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を12倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 43 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を13倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 44 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を14倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 45 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を15倍の同径略同形同長地熱発電タービンを46段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 46 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を16倍の同径略同形同長地熱発電タービンを47段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 47 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を17倍の同径略同形同長地熱発電タービンを48段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 48 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を18倍の同径略同形同長地熱発電タービンを49段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 49 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を19倍の同径略同形同長地熱発電タービンを50段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 50 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を20倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 20 times the same diameter, approximately the same shape and the same length of geothermal power generation turbine in 51 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を21倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) with 21 times the same diameter and the same shape and length of geothermal power generation turbine in 52 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を22倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を23倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 54 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を24倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 24 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 55 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を25倍の同径略同形同長地熱発電タービンを56段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 25 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 56 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を26倍の同径略同形同長地熱発電タービンを57段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and cold turbine core geothermal turbine blade cross section (4B) 26 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 57 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を2倍の同径略同形同長地熱発電タービンを58段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with double the same diameter and the same shape and the same length geothermal power generation turbine provided in 58 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を3倍の同径略同形同長地熱発電タービンを59段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine installed in 59 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を4倍の同径略同形同長地熱発電タービンを60段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 60 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を5倍の同径略同形同長地熱発電タービンの61段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   61-stage structure of the geothermal turbine blade cross section (4F) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を6倍の同径略同形同長地熱発電タービンの62段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4A) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 62 stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を7倍の同径略同形同長地熱発電タービンの63段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   63-stage structure of geothermal turbine blade section (4B) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を8倍の同径略同形同長地熱発電タービンの64段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 64 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を9倍の同径略同形同長地熱発電タービンの65段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 65-stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を10倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 66 stages + the storage battery drive, the electric drive and the use of thermal energy + the geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を11倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 68 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 69 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 70 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを71段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 71 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを72段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 72 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを73段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 73 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを74段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 18 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 74 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを75段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 75 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive, and heat application prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4D) with 21 times the same diameter and the same shape and the same length geothermal power turbine with 77 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with 22 times the same diameter and the same shape and the same length of geothermal power generation turbines in 78 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 79 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 80 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を25倍の同径略同形同長地熱発電タービンを81段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 81 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを82段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and cold turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 82 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを83段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 83 stages. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを84段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 84 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンを85段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 85 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンの86段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) with 5 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine, 86-stage structure + storage battery-powered car priming + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンの87段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 6-fold same diameter, approximately the same shape, same length, geothermal power generation turbine with 87-stage structure + battery-powered car priming + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンの88段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of the geothermal turbine blade cross section (4C) of the eroded liquid metal gravity cold / heat turbine with 7 times the same diameter and the same shape and the same length of geothermal power generator. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンの89段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   89-stage structure of the geothermal turbine blade section (4D) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンの90段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   90-stage structure of the geothermal turbine blade cross section (4E) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the prime of the various types of vehicles powered by storage batteries The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 91 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を11倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 11 times the same diameter and approximately the same shape and length of geothermal power generation turbine structure in 92 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を12倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 93 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を13倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を14倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を15倍の同径略同形同長地熱発電タービンを96段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 96 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を16倍の同径略同形同長地熱発電タービンを97段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 16 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 97 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を17倍の同径略同形同長地熱発電タービンを98段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 98 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を18倍の同径略同形同長地熱発電タービンを99段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を19倍の同径略同形同長地熱発電タービンを100段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 100 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を20倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を21倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure where the geothermal turbine blade cross section (4E) of the edible liquid metal gravity cooling / heating turbine has 21 times the same diameter and the same shape and the same length of the geothermal power generation turbine is arranged in 102 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を22倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 103 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を23倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 104 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を24倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 105 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を25倍の同径略同形同長地熱発電タービンを106段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 106 stages + full electrified house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を26倍の同径略同形同長地熱発電タービンを107段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 26 times the same diameter, approximately the same shape and the same length geothermal power turbine is installed in 107 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を2倍の同径略同形同長地熱発電タービンを108段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 108 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を3倍の同径略同形同長地熱発電タービンを109段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4F) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 109 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を4倍の同径略同形同長地熱発電タービンを110段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 110 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の同径略同形同長地熱発電タービンの111段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 5 times the same diameter, approximately the same shape, the same length, geothermal power generator, 111-stage structure + storage battery-powered vehicles The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の同径略同形同長地熱発電タービンの112段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generator 112-stage structure + storage battery drive various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の同径略同形同長地熱発電タービンの113段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   113-stage structure of geothermal turbine blade cross section (4D) with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の同径略同形同長地熱発電タービンの114段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   114-stage structure of a geothermal turbine blade core (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンの115段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) is 9 times the same diameter approximately the same shape and the same length geothermal power generator 115 stage structure + storage battery drive various vehicles prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure where the geothermal turbine blade cross section (4A) of the erosion liquid metal gravity cooling / heating turbine is 10 times the same diameter and the same shape and the same length geothermal power generation turbine is provided in 116 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 117 stages + accelerating storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4C) 12 times the same diameter and the same shape and the same length Geothermal power generation turbine structure with 118 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 13 times the same diameter and the same shape and the same length geothermal power generation turbine with 119 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 120 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを1段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 15 times the same diameter and the same shape and the same length of geothermal power turbine installed in one stage + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを2段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 2 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを3段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 3 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを4段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 4 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを5段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 5 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4E) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 6 stages + the storage battery drive, the electric drive and the use of the thermal energy. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) of the cored geothermal turbine with 24 times the same diameter and the same shape and the same length as the geothermal power generation turbine in 10 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを11段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbines installed in 11 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを12段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbines are provided in 12 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを13段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation turbine set in 13 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を3倍の同径略同形同長地熱発電タービンを14段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 14 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を4倍の同径略同形同長地熱発電タービンを15段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 15 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を5倍の同径略同形同長地熱発電タービンの16段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   16-stage structure of the geothermal turbine blade section (4C) of the cored geothermal turbine with the same diameter and approximately the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を6倍の同径略同形同長地熱発電タービンの17段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   17-stage structure of geothermal turbine blade cross-section (4D) with the same diameter and the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cold and hot turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を7倍の同径略同形同長地熱発電タービンの18段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of geothermal turbine blade section (4E) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を8倍の同径略同形同長地熱発電タービンの19段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   19-stage structure of geothermal turbine blade cross section (4F) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を9倍の同径略同形同長地熱発電タービンの20段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   20-stage structure of a geothermal turbine blade section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を10倍の同径略同形同長地熱発電タービンの21段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 21 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を11倍の同径略同形同長地熱発電タービンの22段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を12倍の同径略同形同長地熱発電タービンの23段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 23 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を13倍の同径略同形同長地熱発電タービンの24段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with 13 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 24 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を14倍の同径略同形同長地熱発電タービンの25段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 25 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を15倍の同径略同形同長地熱発電タービンの26段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) with 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 26 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を16倍の同径略同形同長地熱発電タービンの27段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) is 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 27 stage structure + battery drive prime + liquid ball lift device (2F) liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を17倍の同径略同形同長地熱発電タービンの28段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine 28-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を18倍の同径略同形同長地熱発電タービンの29段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 29-stage structure + storage battery drive prime + liquid ball rising device (2F) liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を19倍の同径略同形同長地熱発電タービンの30段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 19 times the same diameter approximately the same shape and the same length geothermal power turbine 30 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を20倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 31 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を21倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) with 21 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 32 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を22倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 22 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 33 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を23倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 34 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を24倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 24 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を25倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を26倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を2倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with the same diameter and the same shape and the same length of geothermal power generation turbines in 38 stages + structure for driving various storage battery powered vessels In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を3倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 39 stages + storage battery-powered various ships prime + increase sphere lift device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を4倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length geothermal power turbine structure in 40 stages + storage battery drive various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を5倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 41 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を6倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 42 stages + storage battery powered various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を7倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided structure in 43 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を8倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 8 times the same diameter, approximately the same shape, the same length, geothermal power turbine structure with 44 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を9倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4B) 9 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 45 stages + storage battery driven various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を10倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 46 levels In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を11倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4D) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 47 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を12倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 48 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を13倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + storage battery drive various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を14倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を15倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 51 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を16倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 52 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を17倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 53 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を18倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 54 stages + storage battery driven various vessels primed In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を19倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 55 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を20倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 56 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を21倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を22倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 58 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を23倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4D) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 59 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を24倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 60 stages + storage battery driven to make various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を25倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 61 stages + storage battery driven various ship priming In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を26倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 62 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を2倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with the same diameter and the same shape and the same length geothermal power generation turbine in 63 stages + structure to drive storage battery drive + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を3倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 64 stages + storage battery drive various vessel prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を4倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を5倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2〜12倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 5 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 66 stages + Storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives turbine diameter 2 to 12 times the turbine diameter of a full-size blade impeller turbine + inserts a geothermal air heater (2z) into the drilling hole Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を6倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 6 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 67 stages + Storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives the turbine diameter 4 times of the turbine blades of the full-size blade impeller. + Various energy including geothermal air heater (2z) inserted into the drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を7倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4A) 7 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 68 stages + Storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 5 times the turbine diameter of the bite turbine blade + Wheel turbine + Various energies equipped with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を8倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 69 stages + storage battery drive, electric drive, and warm use of heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives twice the turbine diameter of a full-size blade impeller turbine driven + Geothermal air heater (2z) inserted into borehole drilling holes Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を9倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 70 stages + storage battery drive, electric drive, and warm energy use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of an all-rotor impeller blade turbine, and various energies with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を10倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 10 times the same diameter, approximately the same shape, the same length geothermal power turbine with 71 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を11倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 72 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を12倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 73 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を13倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 74 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を14倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4B) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 75 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を15倍の同径略同形同長地熱発電タービンを76段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 76 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を16倍の同径略同形同長地熱発電タービンを77段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 77 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を17倍の同径略同形同長地熱発電タービンを78段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 78 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を18倍の同径略同形同長地熱発電タービンを79段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 79 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を19倍の同径略同形同長地熱発電タービンを80段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 80 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を20倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 81 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を21倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 82 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を22倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を23倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 84 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を24倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 24 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を25倍の同径略同形同長地熱発電タービンを86段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 86 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を26倍の同径略同形同長地熱発電タービンを87段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 87 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を2倍の同径略同形同長地熱発電タービンを88段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 88 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を3倍の同径略同形同長地熱発電タービンを89段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 89 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を4倍の同径略同形同長地熱発電タービンを90段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 90 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を5倍の同径略同形同長地熱発電タービンの91段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   91-stage structure of a geothermal turbine blade section (4F) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を6倍の同径略同形同長地熱発電タービンの92段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 92-stage structure + storage battery driven various vehicles prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を7倍の同径略同形同長地熱発電タービンの93段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 93 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を8倍の同径略同形同長地熱発電タービンの94段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   94-stage structure of the geothermal turbine blade section (4C) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbines as the encroaching liquid metal gravity cooling and heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を9倍の同径略同形同長地熱発電タービンの95段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 95 times the same diameter and the same shape and the same length of geothermal power turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を10倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を11倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 98 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 99 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 14 times the same diameter approximately the same shape and the same length geothermal power turbine structure with 100 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを101段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 15 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 101 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを102段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4E) 16 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 102 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを103段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 103 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを104段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) with an engraving liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4A) with 18 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 104 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを105段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 105 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 106 stages + the storage battery drive, the electric drive, and the hot use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 107 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) 22 times the same diameter and the same shape and the same length of geothermal power generation turbine with 108 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 109 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 110 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を25倍の同径略同形同長地熱発電タービンを111段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 111 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを112段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape and the same length geothermal power turbine is installed in 112 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを113段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with the same diameter and the same shape and the same length of geothermal power generation turbine installed in 113 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを114段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 114 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンを115段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 115 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンの116段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   116-stage structure of a geothermal turbine blade section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンの117段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 6 times the same diameter and approximately the same shape and length of geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンの118段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   118-stage structure of the geothermal turbine blade section (4C) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンの119段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   119-stage structure of the geothermal turbine blade cross section (4D) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンの120段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 120 times structure of geothermal power generation turbine with the same diameter and shape of the same diameter 9 times + storage battery drive various automobiles + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を11倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine structure + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を12倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 12 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 3 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を13倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4C) of the encroaching liquid metal gravity cold heat turbine with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 4 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を14倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を15倍の同径略同形同長地熱発電タービンを6段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 6 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を16倍の同径略同形同長地熱発電タービンを7段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を17倍の同径略同形同長地熱発電タービンを8段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を18倍の同径略同形同長地熱発電タービンを9段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 9 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を19倍の同径略同形同長地熱発電タービンを10段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を20倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 20 times the same diameter, approximately the same shape and the same length of geothermal power generation turbine in 11 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を21倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbines in 12 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を22倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 22 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 13 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を23倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 14 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を24倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine in 15 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を25倍の同径略同形同長地熱発電タービンを16段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 25 times the same diameter, approximately the same shape, the same length geothermal power turbines are provided in 16 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を26倍の同径略同形同長地熱発電タービンを17段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 17 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を2倍の同径略同形同長地熱発電タービンを18段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4E) with twice the same diameter and approximately the same shape and length of geothermal power generation turbines installed in 18 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を3倍の同径略同形同長地熱発電タービンを19段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 19 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を4倍の同径略同形同長地熱発電タービンを20段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 20 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の同径略同形同長地熱発電タービンの21段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   21 stage structure of geothermal turbine blade cross section (4B) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の同径略同形同長地熱発電タービンの22段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の同径略同形同長地熱発電タービンの23段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   23-stage structure of geothermal turbine blade cross section (4D) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の同径略同形同長地熱発電タービンの24段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 24 stage structure + storage battery drive to make all kinds of cars primed + sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンの25段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 25-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4B) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 27 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 12 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 28 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 29 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) with the same diameter, approximately the same shape, and the same length of geothermal power generation turbines in 30 stages + the storage battery drive, the electric drive, and the use of thermal energy + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを31段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 15 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを32段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを33段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを34段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを35段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4D) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 35 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 36 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbines in 37 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4A) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 38 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 39 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4C) 24 times the same diameter and the same shape and the same length Geothermal power generation structure with 40 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを41段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 41 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを42段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 42 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを43段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with the same diameter and the same shape and the same length of geothermal power generation turbines in 43 stages. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を3倍の同径略同形同長地熱発電タービンを44段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 3 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 44 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を4倍の同径略同形同長地熱発電タービンを45段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Incorporated liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 45 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を5倍の同径略同形同長地熱発電タービンの46段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   46-stage structure of a geothermal turbine blade section (4C) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cold and hot turbines + storage battery-powered automobiles assortment + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を6倍の同径略同形同長地熱発電タービンの47段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   47-stage structure of a geothermal turbine blade section (4D) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cooling and heating turbine + storage battery driven various automobiles ascending + sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を7倍の同径略同形同長地熱発電タービンの48段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   48-stage structure of the geothermal turbine blade cross section (4E) of the cored geothermal turbine with 7 times the same diameter and the same shape and the same length of geothermal power turbine as the prime of various vehicles driven by the storage battery + Intensifying sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を8倍の同径略同形同長地熱発電タービンの49段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   49-stage structure of a geothermal turbine blade section (4F) with the same diameter and the same shape and length of an encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を9倍の同径略同形同長地熱発電タービンの50段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4A) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 50-stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を10倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 10 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を11倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を12倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を13倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 54 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を14倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 55 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を15倍の同径略同形同長地熱発電タービンを56段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 56 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を16倍の同径略同形同長地熱発電タービンを57段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 16 times the same diameter and approximately the same shape and the same length geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を17倍の同径略同形同長地熱発電タービンを58段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 58 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を18倍の同径略同形同長地熱発電タービンを59段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 59 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を19倍の同径略同形同長地熱発電タービンを60段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 60 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を20倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を21倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 21 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 62 stages + accelerating storage battery drive, electric drive, and heat utilization Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を22倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4B) 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を23倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine provided in 64 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を24倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) 24 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 65 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を25倍の同径略同形同長地熱発電タービンを66段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 66 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を26倍の同径略同形同長地熱発電タービンを67段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) with 26 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 67 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を2倍の同径略同形同長地熱発電タービンを68段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) is doubled with the same diameter and the same shape and the same length geothermal power generation turbine in 68 stages. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を3倍の同径略同形同長地熱発電タービンを69段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 69 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を4倍の同径略同形同長地熱発電タービンを70段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 70 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を5倍の同径略同形同長地熱発電タービンの71段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   71-stage structure of a geothermal turbine blade section (4D) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を6倍の同径略同形同長地熱発電タービンの72段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   72-stage structure of the geothermal turbine blade cross section (4E) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity + heat storage battery-powered automobiles assortment + increasing ball lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を7倍の同径略同形同長地熱発電タービンの73段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 73 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を8倍の同径略同形同長地熱発電タービンの74段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 74 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を9倍の同径略同形同長地熱発電タービンの75段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) 9 times the same diameter approximately the same shape and the same length geothermal power generator 75-stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を10倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4C) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 76 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を11倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 11 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 77 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を12倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4E) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 78 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を13倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を14倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 80 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を15倍の同径略同形同長地熱発電タービンを81段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 81 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を16倍の同径略同形同長地熱発電タービンを82段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 82 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を17倍の同径略同形同長地熱発電タービンを83段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 83 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を18倍の同径略同形同長地熱発電タービンを84段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4E) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 84 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を19倍の同径略同形同長地熱発電タービンを85段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4F) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 85 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を20倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を21倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + storage battery drive, electric drive and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を22倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 88 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を23倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbines in 89 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を24倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 90 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を25倍の同径略同形同長地熱発電タービンを91段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 25 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 91 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を26倍の同径略同形同長地熱発電タービンを92段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 92 stages + full electrification house prime + increasing sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を2倍の同径略同形同長地熱発電タービンを93段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4B) with the same diameter and the same shape and the same length of geothermal power generation turbine set in 93 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を3倍の同径略同形同長地熱発電タービンを94段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 94 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を4倍の同径略同形同長地熱発電タービンを95段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 95 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を5倍の同径略同形同長地熱発電タービンの96段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   96-stage structure of a geothermal turbine blade section (4E) with the same diameter and the same shape and the same length of geothermal power as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を6倍の同径略同形同長地熱発電タービンの97段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The 97-stage structure of the geothermal turbine blade section (4F) with the same diameter and the same shape and the same length of geothermal turbine as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を7倍の同径略同形同長地熱発電タービンの98段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を8倍の同径略同形同長地熱発電タービンの99段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4B) 99 times structure of geothermal power generation turbine with the same diameter and shape of the same diameter + accelerating various battery-powered vehicles + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を9倍の同径略同形同長地熱発電タービンの100段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) of 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 100 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を10倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling turbine core geothermal turbine blade cross section (4D) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を11倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4E) 11 times the same diameter and approximately the same shape and the same length geothermal power generation structure with 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を12倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を13倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4A) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 104 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を14倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 14 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 105 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を15倍の同径略同形同長地熱発電タービンを106段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 106 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を16倍の同径略同形同長地熱発電タービンを107段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) with 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine installed in 107 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を17倍の同径略同形同長地熱発電タービンを108段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 17 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 108 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を18倍の同径略同形同長地熱発電タービンを109段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 109 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を19倍の同径略同形同長地熱発電タービンを110段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 110 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を20倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 20 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 111 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を21倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) with 21 times the same diameter, approximately the same shape, and the same length of geothermal power generation turbines in 112 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を22倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4D) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 113 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を23倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 114 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を24倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4F) 24 times the same diameter and the same shape and the same length Geothermal power generation turbine structure with 115 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を25倍の同径略同形同長地熱発電タービンを116段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 116 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を26倍の同径略同形同長地熱発電タービンを117段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 117 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を2倍の同径略同形同長地熱発電タービンを118段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) with the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 118 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を3倍の同径略同形同長地熱発電タービンを119段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 119 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を4倍の同径略同形同長地熱発電タービンを120段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 120 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を5倍の同径略同形同長地熱発電タービンの1段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   1-stage structure of a geothermal turbine blade section (4F) of the core geothermal turbine of the bite liquid metal gravity cooling / cooling turbine 5 times the same diameter and the same shape and the same length + to make the prime of various automobiles driven by storage batteries + the increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を6倍の同径略同形同長地熱発電タービンの2段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を7倍の同径略同形同長地熱発電タービンの3段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Three-stage structure of a geothermal turbine blade section (4B) with the same diameter and the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cold and cold turbines + storage battery-powered automobiles assortment + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を8倍の同径略同形同長地熱発電タービンの4段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   4 stage structure of geothermal turbine blade core (4C) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を9倍の同径略同形同長地熱発電タービンの5段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を10倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4E) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 6 stages + the storage battery drive, the electric drive, and the hot use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を11倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 11 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 7 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を12倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を13倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 9 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を14倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4C) 14 times the same diameter, approximately the same shape and the same length, and the geothermal power generation turbine in 10 stages + the storage battery drive, the electric drive, and the warm use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を15倍の同径略同形同長地熱発電タービンを11段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 11 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を16倍の同径略同形同長地熱発電タービンを12段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 12 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を17倍の同径略同形同長地熱発電タービンを13段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 13 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を18倍の同径略同形同長地熱発電タービンを14段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 14 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を19倍の同径略同形同長地熱発電タービンを15段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 15 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を20倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4C) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 16 stages + the storage battery drive, the electric drive, and the heat application. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を21倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を22倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 22 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 18 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を23倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4F) 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 19 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を24倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4A), which is 24 times the same diameter, and the same length and length of geothermal power generation turbines, provided in 20 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を25倍の同径略同形同長地熱発電タービンを21段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) with 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 21 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を26倍の同径略同形同長地熱発電タービンを22段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 22 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を2倍の同径略同形同長地熱発電タービンを23段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with the same diameter, approximately the same shape, and the same length of geothermal power turbines in 23 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を3倍の同径略同形同長地熱発電タービンを24段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbines provided in 24 stages + full electrification house prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を4倍の同径略同形同長地熱発電タービンを25段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 25 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を5倍の同径略同形同長地熱発電タービンの26段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   26-stage structure of a geothermal turbine blade section (4A) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を6倍の同径略同形同長地熱発電タービンの27段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 27-stage structure + storage battery-powered car priming + increasing sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を7倍の同径略同形同長地熱発電タービンの28段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   28-stage structure of a geothermal turbine blade section (4C) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を8倍の同径略同形同長地熱発電タービンの29段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   29-stage structure of a geothermal turbine blade section (4D) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を9倍の同径略同形同長地熱発電タービンの30段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   30-stage structure of the geothermal turbine blade section (4E) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / cooling turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を10倍の同径略同形同長地熱発電タービンの31段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 10 times the same diameter approximately the same shape and the same length geothermal power turbine 31-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を11倍の同径略同形同長地熱発電タービンの32段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 32-stage structure + storage battery drive prime + liquid ball rising device (2F) liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を12倍の同径略同形同長地熱発電タービンの33段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 12 times the same diameter approximately the same shape and the same length geothermal power generator 33 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を13倍の同径略同形同長地熱発電タービンの34段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Incorporated liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine 34 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を14倍の同径略同形同長地熱発電タービンの35段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4D) is 14 times as large and approximately the same shape and length of geothermal power generation turbine 35 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を15倍の同径略同形同長地熱発電タービンの36段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 36-stage structure + storage battery drive prime + liquid ball riser (2F) liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を16倍の同径略同形同長地熱発電タービンの37段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine 37 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を17倍の同径略同形同長地熱発電タービンの38段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4A) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine 38 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を18倍の同径略同形同長地熱発電タービンの39段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4B) with 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 39-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を19倍の同径略同形同長地熱発電タービンの40段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4C) 19 times the same diameter, approximately the same shape and the same length geothermal power generation turbine 40 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を20倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 41 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を21倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 42 stages + accelerating various battery-powered vessels + increasing ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を22倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 43 stages + accelerating the storage battery drive various vessels In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を23倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) with 23 times the same diameter and approximately the same shape and length of geothermal power turbines in 44 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を24倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 45 structure + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を25倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 46 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を26倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 47 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を2倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) with the same diameter and the same shape and the same length geothermal power generation turbine doubled in 48 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を3倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を4倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 50 stages + storage battery driven various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を5倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 5 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine provided in 51 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を6倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 52 stages + storage battery powered various ship prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を7倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4D) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 53 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を8倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling turbine core geothermal turbine blade cross section (4E) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 54 stages + storage battery drive various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を9倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 55 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を10倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 10 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を11倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4B) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery driven various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を12倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4C) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 58 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を13倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) 13 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を14倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4E) 14 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を15倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4F) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery driven various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を16倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4A) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 62 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を17倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 63 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を18倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4C) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 64 stages + storage battery drive various vessel prime + increase sphere ascent device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を19倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4D) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 65 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を20倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4E) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 66 stages + storage battery driven various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を21倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4F) 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 67 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4A)を22倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4A) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 68 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4B)を23倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4B) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 69 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4C)を24倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4C) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 70 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4D)を25倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4D) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 71 stages + storage battery driven various ship priming In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4E)を26倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4E) 26 times the same diameter, approximately the same shape, the same length geothermal power turbine structure in 72 stages + storage battery powered various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4F)を2倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4F) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 73 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 74 stages + storage battery-powered various ships prime + increase sphere lift device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 75 stages + storage battery driven various ship prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 5 times the same diameter, approximately the same shape and the same length Geothermal power generation turbine structure with 76 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives the turbine diameter 4 times of the turbine blades of the full-size blade impeller. + Various energy including geothermal air heater (2z) inserted into the drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 77 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 5 times the turbine diameter of the bite turbine blade + Wheel turbine + Various energies equipped with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 78 stages + storage battery drive, electric drive and warm use prime heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives twice the turbine diameter of a full-size blade impeller turbine driven + Geothermal air heater (2z) inserted into borehole drilling holes Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) Eight times the same diameter and approximately the same shape and length Geothermal power generation turbine structure with 79 stages + Storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of an all-rotor impeller blade turbine, and various energies with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length of geothermal power generation turbine in 80 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives the turbine diameter 4 times of the turbine blades of the full-size blade impeller. + Various energy including geothermal air heater (2z) inserted into the drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 81 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 84 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 85 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを86段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 86 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを87段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 87 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを88段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 88 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを89段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere riser (2F) with an engraving liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 89 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを90段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 90 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine with 20 times as many as 91 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 92 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 93 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 94 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 95 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを96段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 96 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを97段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 97 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを98段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 98 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを99段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを100段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 100 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの101段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   101-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの102段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 102 stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの103段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 103 stage structure + storage battery drive various vehicle prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの104段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 104-stage structure of geothermal power generation turbine with the same diameter and the same shape and the same length + accelerating various battery-powered vehicles + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの105段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 105 times structure of geothermal power generation turbine with the same diameter and shape of the same diameter 9 times + storage battery drive various automobiles primed The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 106 stages + the storage battery drive, the electric drive, and the hot use of heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 107 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 108 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine in 109 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを111段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 111 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを112段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 112 stages + Factory electrification prime + Increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを113段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 113 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを114段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 114 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを115段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 115 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 116 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+水合金を加速して発電の3種類食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine with 117 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Accelerating water alloy to drive three types of power generation turbine blades and 5 times the turbine diameter of turbine blades + Geothermal air heater (2z) inserted into drilling hole Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 118 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 23 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 119 stages + accelerating storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 24x Same Diameter and Same Shape and Same Length Geothermal Power Turbine with 120 Stages + Storage Battery Driven, Electric Drive and Heat Use Prime + Geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを1段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power turbine installed in one stage + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを2段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in two stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを3段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine in 3 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを4段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 4 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを5段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 5 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの6段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   6-stage structure of a geothermal turbine blade section (4X) with the same diameter and the same shape and the same length of geothermal power as the core of an encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの7段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   7-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの8段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with 7 times the same diameter and the same shape and the same length of geothermal power generation turbine + accelerating battery-driven various automobiles + Intensifying sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの9段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   9-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of the biting liquid metal gravity cooling / heating turbine + storage battery-powered automobiles assortment + augmenting sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの10段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Ten-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 9 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 12 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 13 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 14 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 14 times the same diameter and the same shape and length of geothermal power generation turbine in 15 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを16段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 16 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを17段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 17 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを18段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 18 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを19段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 19 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを20段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 20 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 21 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 22 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 23 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 24 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを26段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 26 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを27段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 27 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを28段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Evaporating liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with twice the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 28 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを29段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 29 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを30段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 30 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの31段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   31-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of a biting liquid metal gravity cooling / heating turbine + storage battery-powered automobiles assortment + a rising sphere ascending device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの32段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power turbine 32-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの33段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   33-stage structure of geothermal turbine blade cross section (4X) of cored geothermal turbine with 7 times the same diameter and the same shape and the same length of geothermal power turbine as a prime of various automobiles driven by storage batteries + Intensifying sphere ascent device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの34段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The 34-stage structure of the geothermal turbine blade section (4X) of the core geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの35段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 35 stage structure + storage battery drive various automobile primes + Intensifying sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 36 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine in 37 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 38 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 39 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine as 40 stages of the biting liquid metal gravity cold and hot turbine + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを41段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 41 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを42段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 16 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 42 stages + Factory electrification prime + Incremental sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを43段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 43 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを44段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 44 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを45段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 45 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length geothermal power turbine with 46 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 47 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 48 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 23 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 49 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine in 50 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを51段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power turbine installed in 51 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを52段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 52 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを53段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length geothermal power generation turbine installed in 53 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを54段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 54 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを55段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 55 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの56段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 56 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various automobile prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの57段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal turbine 57 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの58段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの59段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generator 59 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの60段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   60-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of various vehicles driven by storage batteries The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 62 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 64 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure 65 + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを66段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine installed in 66 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを67段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 67 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを68段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 68 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを69段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere riser (2F) with an engraving liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine installed in 69 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを70段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 70 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 71 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 21 times the same diameter, approximately the same shape and the same length Geothermal power generation turbine structure in 72 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 73 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 74 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 75 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを76段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 76 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを77段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 77 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを78段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 78 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを79段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 79 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを80段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 80 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの81段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eight-stage structure of geothermal turbine blade cross-section (4X) of the cored geothermal turbine with the same diameter of approximately the same shape and the same length as the geothermal power generation turbine of the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの82段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの83段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 83 stage structure + storage battery drive various automobile primes + Intensifying sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの84段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 84 stage structure + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの85段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 85 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 87 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 89 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを91段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 91 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを92段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine installed in 92 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを93段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 93 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを94段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 94 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを95段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 95 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 96 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and length of geothermal power generation turbine in 97 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 98 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 99 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 24 times the same diameter and the same shape and the same length as the geothermal power generation turbine in 100 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを101段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 101 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを102段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 102 stages + full electrification house prime + increasing sphere ascent device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを103段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine doubled in 103 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを104段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 104 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを105段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 105 stages. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの106段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   106-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの107段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 107 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの108段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   108-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 7 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの109段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 109 times structure of geothermal power generation turbine with the same diameter and the same shape with the same diameter + accelerating various battery-powered vehicles + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの110段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 110 times structure of the same diameter and same shape and the same length geothermal power generation turbine 9 times + storage battery drive various automobiles priming + sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 111 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 112 stages + storage battery drive, electric drive and hot energy use prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power generation turbine with 113 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 114 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 115 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを116段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 116 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを117段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 117 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを118段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 118 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを119段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power turbine installed at 119 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを120段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 120 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine in a single stage + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine structure + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 23 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 4 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 5 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを6段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 6 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを7段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power turbines are installed in 7 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを8段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Evaporating liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with twice the same diameter, approximately the same shape, the same length, geothermal power generation turbine installed in 8 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを9段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Evaporating liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with three times the same diameter, approximately the same shape, the same length, geothermal power generation turbine installed in 9 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを10段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 10 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの11段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   11-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの12段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Twelve-stage structure of geothermal turbine blade core (4X) with the same diameter and approximately the same shape and the same length as the encroaching liquid metal gravity cold and cold turbine turbine + storage battery-powered various automobile primes + increasing sphere ascent device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの13段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   13-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 7 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの14段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   14-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with an 8 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの15段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   15-stage structure of geothermal turbine blade cross-section (4X) of cored geothermal turbine with 9 times the same diameter and the same shape and the same length of geothermal power turbines as a prime for various automobiles powered by storage batteries The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 16 stages + the storage battery drive, the electric drive, and the hot use of heat. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 17 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 18 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 19 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross-section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 20 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを21段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 21 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを22段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを23段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 23 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを24段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 24 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを25段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 25 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power turbines in 27 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 28 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbines in 29 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 30 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを31段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを32段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 32 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを33段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and length of geothermal power generation turbine doubled in 33 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを34段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを35段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 35 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの36段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   36-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cold and cold turbine + a battery-powered vehicle assortment + an increasing sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの37段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   37-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 6 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの38段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   38-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cold and hot turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの39段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   39-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades in the encroaching liquid metal gravity cold and cold turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの40段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+金属球と水を加速して発電の3種類食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   40-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the plunging liquid metal gravity cold heat turbine. To save and save liquid metal and specific material impact reduction material + compress air heated by geothermal heat to heat compressed geothermal heated air + heat recovery from cold turbine exhaust + heat recovery from metal sphere and water to generate electricity A combination of various energy storage cycle engines that drive 4 times the turbine diameter of an all-rotor impeller blade turbine and insert a geothermal air heater (2z) into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの41段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 41-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの42段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) is 11 times the same diameter approximately the same shape and the same length geothermal power generator 42 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの43段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine 43 stage structure + storage battery driven prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの44段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine 44 stage structure + storage battery drive prime + liquid ball rising device (2F) liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの45段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Incorporated liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 45 stage structure + battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered + Compressed heat is recovered from the exhaust of the cold turbine + Turbine diameter is 5 times the turbine diameter + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの46段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Incorporated liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine 46-stage structure + storage battery drive prime + liquid ball riser (2F) liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの47段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generator 47 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored. + Compressed heat is recovered by compressing the air heated by geothermal heat. + Compressed heat recovery is recovered from the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの48段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 48 times structure of same diameter and same shape and same length geothermal power turbine with 17 times + storage battery drive prime + liquid ball riser (2F) with liquid metal The material that reduces the impact of specific substances and materials is stored and stored. + Compressed air is recovered by heating with geothermal heat. Compressed heat recovery is performed by heating the geothermal heated air. + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの49段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) is 18 times the same diameter and approximately the same shape and length of geothermal power generation turbine with 49-stage structure + battery drive prime + liquid ball lift device (2F) with liquid metal The material that reduces the impact of specific substances is stored and stored + Compressed air is heated by geothermal heat and heated air is heated and compressed heat is recovered + Compressed heat is recovered from the exhaust of the cold turbine + Turbine diameter is 5 times the turbine diameter + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンの50段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine 50 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal The material with reduced material impact reduction is stored and stored + heated air is compressed by geothermal heat, heated air is heated and compressed heat is recovered + compressed heat is recovered from the exhaust of the cold turbine + doubled turbine blade diameter of the full blade rotor blade + Energy storage cycle coalescing engine equipped with geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 51 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length, geothermal power turbine structure in 52 stages + accelerating storage battery-driven vessels In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 53 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 54 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 55 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 56 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 57 stages + storage battery driven various ships prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) double-same structure of approximately the same shape and length of geothermal power generation turbine in 58 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 59 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 60 stages + storage battery-driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 62 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine Core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length Geothermal power generation turbine structure in 63 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 64 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 66 stages In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 67 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation structure with 68 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 69 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 71 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generator structure in 72 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 73 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 74 stages + storage battery driven various ships prime + increasing ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 75 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 76 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 77 stages + storage battery powered various vessel prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 5 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 78 stages + storage battery drive to make all kinds of ships prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engines equipped with a turbine diameter doubled and a geothermal air heater (2z) inserted into a drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 79 stages + storage battery drive various vessel prime In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescence engine equipped with 3 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 80 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact-reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heated air + compressed heat recovery + cold turbine exhaust is compressed heat recovery + full biting blade impeller Various energy storage cycle coalescing engine equipped with 4 times the turbine diameter of the turbine + geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine structure in 81 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and cold turbine core geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 82 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 83 stages + storage battery drive to make all kinds of ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 84 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+兼用空気温熱等と冷熱を回収利用するする発電方法とした各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 85 stages + storage battery-driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are stored and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the cold turbine exhaust. Various energy storage cycle coalescing engines as a power generation method to recover and utilize 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive, and warm energy use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 5 times the turbine diameter of the bite turbine blade + Wheel turbine + Various energies equipped with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 87 stages + Storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives twice the turbine diameter of a full-size blade impeller turbine driven + Geothermal air heater (2z) inserted into borehole drilling holes Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive, and heat application Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of an all-rotor impeller blade turbine, and various energies with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and cold turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 89 stages + storage battery drive, electric drive and hot energy use prime + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives the turbine diameter 4 times of the turbine blades of the full-size blade impeller. + Various energy including geothermal air heater (2z) inserted into the drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Drives 5 times the turbine diameter of the bite turbine blade + Wheel turbine + Various energies equipped with geothermal air heater (2z) inserted into drilling hole Conservation cycle coalescence organization. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 91 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine in 92 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 12 times the same diameter and the same shape and the same length of geothermal power generation turbine in 93 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 95 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを96段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere riser (2F) with an engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and length of geothermal power generation turbine installed in 96 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを97段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 97 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを98段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 98 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを99段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを100段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 100 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 101 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 103 stages + accelerating storage battery drive, electric drive, and heat utilization Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 104 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 24 times the same diameter and approximately the same shape and the same length Geothermal power generation structure with 105 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを106段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter and the same shape and the same length geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを107段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 107 stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを108段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbines in 108 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを109段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを110段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 4 times the same diameter and the same shape and the same length geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの111段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter, approximately the same shape, the same length, geothermal power generator 111-stage structure + storage battery-powered vehicle prime The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの112段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine 112 stage structure + storage battery drive various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの113段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   113-stage structure of geothermal turbine blade cross section (4X) of core geothermal turbine with 7 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの114段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   114-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of various vehicles driven by the storage battery + the increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの115段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   115-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 116 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine with 117 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 118 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 13 times the same diameter and approximately the same shape and the same length geothermal power generation turbine with 119 stages + storage battery drive, electric drive and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 120 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを1段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length of geothermal power turbine installed in one stage + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを2段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape and the same length geothermal power turbines in two stages Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを3段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape and the same length geothermal power turbine in 3 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを4段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 4 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを5段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 5 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 9 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 24 times the same diameter and the same shape and the same length as the geothermal power generation turbine in 10 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを11段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 11 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを12段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 12 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを13段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 13 stages + Fully electrified house prime + Increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを14段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power turbine structure with 14 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを15段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの16段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   16-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの17段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   17-stage structure of geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold and cold turbine turbine + storage battery drive to make all kinds of automobiles primed + sphere rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの18段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   18-stage structure of geothermal turbine blade cross section (4X) of cored geothermal turbine with 7 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの19段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   19-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine + storage battery-powered automobiles assortment + augmenting sphere lifting device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの20段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   20-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered automobiles + the rising sphere lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 21 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 24 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを26段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape and the same length geothermal power generation turbine installed in 26 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを27段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 27 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを28段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを29段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを30段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine 20 times as many as the structure + the storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 21 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine provided in 32 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 22 times the same diameter and approximately the same shape and the same length Geothermal power generation turbine provided in 33 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 34 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 24 times the same diameter and the same shape and the same length Geothermal power generation turbine structure in 35 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを36段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter and the same shape and the same length geothermal power generation structure with 36 stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを37段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power turbine in 37 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを38段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) Double-size Same-diameter Same-length Same-length Geothermal Power Turbine Structure with 38 Stages + Fully Electrified House Prime + Increasing Ball Lifting Device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを39段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 39 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを40段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation structure with 40 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの41段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   41-stage structure of a geothermal turbine blade section (4X) with the same diameter and the same shape and the same length of geothermal power as the core of a biting liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの42段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   42-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 6 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの43段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 43 stage + storage battery drive various vehicles prime + increasing sphere raising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの44段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   44-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの45段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   45-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 9 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 47 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 48 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 49 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) 14 times the same diameter and the same shape and the same length geothermal power generation turbine as 50 stages of the biting liquid metal gravity cold and cold turbine + the storage battery drive, the electric drive, and the warm use of the heat + the geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを51段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 51 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを52段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 52 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを53段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 53 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを54段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 54 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを55段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 55 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 56 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 21 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 57 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 58 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 59 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine in 60 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを61段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation structure with 61 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを62段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 26 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 62 stages + full electrified house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを63段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 63 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを64段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 64 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを65段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation structure with 65 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの66段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   66-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length of geothermal power turbine as the prime of various automobiles driven by storage batteries + Intensifying sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの67段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   67-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades in the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの68段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   68-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの69段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   69-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered automobiles + the rising sphere lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの70段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   70 stage structure of geothermal turbine blade section (4X) of core geothermal turbine with 9 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 71 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 72 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 73 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 74 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 75 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを76段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 76 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを77段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 77 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを78段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 78 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを79段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 79 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを80段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter of the same shape and the same length geothermal power generation turbine is installed in 80 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and length of geothermal power turbines in 81 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 82 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 84 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 24 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 85 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを86段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter and the same shape and the same length geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを87段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 87 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを88段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) structure with 88 stages of geothermal power generation turbines with the same diameter and the same shape with the same diameter doubled + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを89段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 89 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを90段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 90 stages + Fully electrified housing primed ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの91段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   91-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの92段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 92 times structure of 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine + battery-powered various automobile primes + Intensifying sphere climbing device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの93段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 93 stage structure + battery-powered car priming + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの94段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの95段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 95 times the same diameter and the same shape and the same length of geothermal power turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 96 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine in 97 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 98 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 99 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation structure with 100 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを101段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 101 stages + Factory electrification prime + Intensifying sphere raising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを102段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 16 times the same diameter and the same shape and the same length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを103段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 103 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを104段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 104 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを105段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 105 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 106 stages + the storage battery drive, the electric drive, and the use of thermal energy. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 107 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length Geothermal power generation structure with 108 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 23 times the same diameter and the same shape and the same length geothermal power generation structure with 109 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 110 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを111段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter and approximately the same shape and length of geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを112段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 112 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + Fully electrified residential prime ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 3 times the same diameter and the same shape and the same length geothermal power generation structure with 114 stages + Fully electrified house prime + Increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 115 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの116段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   116-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの117段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   117-stage structure of geothermal turbine blade core (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの118段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   118-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの119段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   119-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered automobiles + the rising sphere riser (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの120段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length, geothermal power generator 120-stage structure + storage battery-powered car priming + increasing sphere lift (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with two stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 4 stages + the storage battery drive, electric drive, and the use of thermal energy. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 5 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 6 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 9 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 10 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 12 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 13 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 14 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 16 stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを17段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 17 stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを18段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine in 18 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを19段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 19 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを20段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの21段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   21-stage structure of geothermal turbine blade cross section (4X) of core geothermal turbine with 5 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの22段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times structure of 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive various automobiles + increasing ball rising device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの23段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   23-stage structure of geothermal turbine blade core (4X) with the same diameter and the same shape and the same length of geothermal turbine blades of the encroaching liquid metal gravity cooling and heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの24段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 24 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの25段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 25-stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 26 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 27 stages + storage battery drive, electric drive, and warm use of heat + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 28 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 29 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine in 14 stages + structure battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを31段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 31 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを32段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 32 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles equipped with 3 times driving + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを33段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined various energy storage cycle engines with 4x drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを34段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined with various energy storage cycle engines with 5x drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを35段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 35 stages + factory electrification prime + increase sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compressed heat recovery + compressing heat recovery from cold turbine exhaust + turbine diameter of full blade impeller turbine Combined engine with various energy storage cycles with double drive + geothermal air heater (2z) inserted into drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 36 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power turbines in 37 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives 4 times the turbine diameter of the biting turbine blade wheel + Various heat storage cycle coalescing engine with geothermal air heater (2z) inserted into the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 38 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of the cold turbine + Drives the turbine diameter of a full-scale blade rotor blade turbine 5 times + Combines various energy storage cycle engines with a geothermal air heater (2z) inserted in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 39 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the exhaust of a cold turbine + Drives twice the turbine diameter of a biting full blade impeller turbine + A geothermal air heater (2z) is inserted into the drilling hole of the various energy storage cycle combined engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 40 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Drives 3 times the turbine diameter of a bite turbine blade + Turbine air heater (2z) inserted into borehole drilling holes and various energy conservation cycle combined engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを41段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 41 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを42段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 26 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 42 stages + full electrification house prime + increasing sphere raising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを43段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) Double-same structure of approximately the same shape and length of geothermal power generation turbines in 43 stages + Fully electrified residential prime ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles, with turbine diameter doubled and geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを44段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power turbine with a structure of 44 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 3 times turbine diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを45段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 45 stages + full electrification house prime + increasing sphere raising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 4x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの46段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   46-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの47段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   47-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with 6 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Combined engine with various energy storage cycles equipped with double diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの48段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   48-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 7 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy storage cycle coalescence engine equipped with 3 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの49段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intruded liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 8 times the same diameter and approximately the same shape and the same length of geothermal power generation The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by the geothermal heat. The compressed heat recovery is recovered from the heated air. Various energy conservation cycle coalescence engine equipped with 4 times diameter driving + geothermal air heater (2z) inserted into borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの50段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   50-stage structure of a geothermal turbine blade section (4X) with a core diameter of 9 times the same diameter and the same shape and the same length of geothermal power as an encrusted liquid metal gravity cooling / heating turbine The liquid metal and the material for reducing the impact of material-critical substances are stored and stored at the same time. + The compressed air is heated by compressing the air heated by geothermal heat. The compressed heat recovery is recovered from the heat from the cold turbine. Various energy storage cycle coalescence engine equipped with 5x diameter drive + geothermal air heater (2z) inserted into borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching the liquid metal and specific material impact reducing material with geosphere power generation by using the geothermal power generation of the cored geothermal turbine blade cross section (4X) of the biting liquid metal gravity cold / heat turbine + 2G Compressing the heated air and heating the geothermal heating air + Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives double the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) biting + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) to CO20 power generation with geothermal power generation of 11 times + Increased storage of liquid metal and specific material impact reducing material with increasing ball rising device (2F) + Geothermal Compressing the heated air and heating the geothermal heated air + Compressed heat recovery + Compressed heat recovery of the cold turbine exhaust + Drives the turbine diameter of 1 to 12 turbines 3 times the turbine blade shaft (16A) + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching the liquid metal and the material for reducing the impact of specific serious substances with the sphere rising device (2F) + geothermal heat by making the core geothermal turbine blade cross section (4X) into CO20 power generation by 12 times the geothermal power Compressing the heated air to heat the geothermal heated air + Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives 4 times the turbine diameter of 1 to 12 turbines by the horizontal shaft (16A) biting + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation of 13 times + Increased ball rising device (2F) raises liquid metal and specific material impact reduction material + geothermal heat Compressing the heated air and heating the geothermal heated air + Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives 5 times the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) biting + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by 14 times geothermal power generation + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + geothermal heat Compressing the heated air and heating the geothermal heating air + Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives double the turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) biting + Geothermal Various energy conservation cycle coalescing engine with air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 52 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 17 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 18 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 54 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 19 times the same diameter and the same shape and the same length of geothermal power generation turbine in 55 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 56 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 21 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 57 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 22 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 58 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 59 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length of geothermal power generation turbine in 60 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 61 stages + storage battery powered various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 62 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 63 stages + storage battery drive various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 64 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 65 stages + storage battery drive various vessel prime + increase ball rising device (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air to drive 5 times the turbine diameter of 1 to 12 turbine blades with a horizontal blade (16A) + geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 66 stages + storage battery driven various vessel prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 67 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 7 stages. In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 69 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 70 stages + storage battery drive various vessel prime + increase sphere ascent device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 71 stages + storage battery driven various vessel prime + increase sphere ascent device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 72 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 73 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 74 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 75 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 76 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 77 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generator structure with 78 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 79 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 80 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 81 stages + storage battery-driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 82 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 83 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 84 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 85 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generator structure with 86 stages + storage battery drive various vessel prime + increase sphere rising device (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbine diameters twice with a full-rotating blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure installed in 87 stages + storage battery drive various vessel prime + increase sphere rising device (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 3 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) having the same diameter and the same shape and the same length of geothermal power generation turbine in 88 stages + structure for driving various storage batteries + increasing ball rising device (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 4 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure provided in 89 stages (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air to drive 5 times the turbine diameter of 1 to 12 turbine blades with a horizontal blade (16A) + geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 90 stages (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbine diameters twice with a full-rotating blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 91 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with generators and heat pumps with three times the diameter of the combined bolt assembly turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 92 stages + storage battery powered various ship priming In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 93 stages + storage battery powered various ship prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 94 stages + storage battery driven various ship priming In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, with a combined bolt assembly turbine diameter twice as many as a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 95 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with generators and heat pumps with three times the diameter of the combined bolt assembly turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 96 stages + storage battery drive, electric drive, and warm use of heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine in 97 stages + storage battery drive, electric drive and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven turbine blades 5x 1 to 12 times in horizontal axis (16A) + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 98 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven by double blade diameter of 1 to 12 turbines with horizontal shaft (16A) biting + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 99 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery for geothermal heated air + Compressed heat recovery for cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Boring a geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation structure with 100 stages + storage battery drive, electric drive and warm use prime heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Compressed air from liquid metal and specific material impact reduction material Compressed air accelerating 1 to 12 turbines on the horizontal axis (16A) Combined various energy storage cycle engines with 4x diameter drive + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 101 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cold and cold turbine with 16 times the same diameter and the same shape and the same length of geothermal power generation turbine in 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 103 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 104 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 19 times the same diameter and the same shape and the same length Geothermal power generation structure with 105 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを106段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbines are installed in 106 stages. Compressed heat recovery for geothermal heating air + Compressed heat recovery for cold turbine exhaust + Driven double turbine diameters of 1 to 12 turbines by horizontal blades (16A) + geothermal air heater (2z) Various energy conservation cycle coalescence engine installed in drilling hole of boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを107段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 21 times the same diameter and the same shape and the same length Geothermal power generation turbine is installed in 107 stages + electric drive prime + heating air is compressed by geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Driven turbine blades 3 times the diameter of 1 to 12 turbines by horizontal shaft (16A) + Geothermal air heater (2z) Various energy conservation cycle coalescence engine installed in drilling hole of boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを108段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length Geothermal power generation turbine is installed in 108 stages + Electric drive prime + Heating air compressed by geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Driven turbine blades 4x 4 times by horizontal axis (16A) of biting blade + Geothermal air heater (2z) Various energy conservation cycle coalescence engine installed in drilling hole of boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを109段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 23 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is provided in 109 stages. Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Driven turbine blades 5 times the diameter of 1 to 12 turbines by horizontal shaft (16A) + Geothermal air heater (2z) Various energy conservation cycle coalescence engine installed in drilling hole of boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを110段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 110 stages, + electric drive prime, + heating air is compressed by geothermal heat Compressed heat recovery for geothermal heating air + Compressed heat recovery for cold turbine exhaust + Driven double turbine diameters of 1 to 12 turbines by horizontal blades (16A) + geothermal air heater (2z) Various energy conservation cycle coalescence engine installed in drilling hole of boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを111段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which the geothermal turbine blade cross-section (4X) of the cored liquid metal gravity cooling / cooling turbine is 25 times the same diameter and the same shape and the same length are provided in 111 stages + the output increasing sphere (2E) as a small diameter + Compressed air is heated by geothermal heat and heated heat is compressed from geothermal heated air + Compressed heat is recovered from exhaust from cold turbines + 1 to 12 turbines are driven three times by the horizontal shaft (16A) + Various energy storage cycle coalescing engines with geothermal air heaters (2z) installed in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを112段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which 112 times the same diameter and approximately the same shape and length of geothermal power generation turbine of the core geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cooling and cooling turbine is provided in 112 stages + the output increasing sphere (2E) as a small diameter + Compressed air is heated by geothermal heat, and heated heat is compressed from geothermal heated air + Compressed heat is recovered from exhaust from the cold turbine + Driven turbine blade horizontal axis (16A) drives 1 to 12 turbines 4 times the diameter + Various energy storage cycle coalescing engines with geothermal air heaters (2z) installed in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which the geothermal turbine blade cross section (4X) of the core of the submerged liquid metal gravity cooling / heating turbine has the same diameter and the same shape and the same length of the geothermal power generation turbine in 113 stages + the output increasing sphere (2E) as a small diameter + Compressed heat recovered by geothermal heating and heated heat compressed from geothermal heated air + Compressed heat recovered from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) of 5 to 1 times the turbine diameter 5 times + Various energy storage cycle coalescing engines with geothermal air heaters (2z) installed in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure in which 114 times the same-diameter and same-length geothermal power generation turbine with three times the same diameter and the same length and length of the geothermal turbine blade cross section (4X) as the biting liquid metal gravity cooling / cooling turbine + Compressed air is heated by geothermal heat, and heated heat is compressed from geothermal heated air + Compressed heat is recovered from the exhaust of the cold turbine + Driven turbine blades are driven twice the diameter of 1 to 12 turbines with the horizontal shaft (16A) + Various energy storage cycle coalescing engines with geothermal air heaters (2z) installed in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Accelerating turbine drive with a structure with 115-stage geothermal power turbines with the same diameter and the same shape and the same length of the geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cold and cold turbine as a small diameter. + Compressed heat recovery from geothermal heating air by compressing geothermal heating air + Compressed heat recovery from cold turbine exhaust + Compressed air recovery from liquid metal and specific material impact reduction material (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various boring machine drilling holes combined with various energy storage cycle engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Drives 1 to 12 turbines 4 times in diameter + Various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter approximately the same shape and the same length geothermal power turbine with 117 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed heat recovered from geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovered from cooling turbine exhaust + Compressed full blade impeller turbine Combined engine with various energy storage cycles with 5x turbine diameter + geothermal air heater (2z) inserted in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation structure with 118 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled driving + geothermal air heater (2z) various energy storage cycle coalescing engine provided in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを119段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power turbine structure with 119 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various boring machine drilling holes combined with various energy storage cycle engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power turbines in 120 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and specific material impact-reducing materials are saved and stored + Compressed air is recovered by compressing air heated by geothermal heat and compressed heat is recovered + Compressed heat recovery from cold turbine exhaust + Reducing material impact relative to liquid metal Accelerating material with compressed air to drive 1 to 12 turbines 4 times the diameter of a full blade blade (16A) + geothermal air heater (2z) in drilling hole for various energy conservation cycles organ. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの1段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   1-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの2段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 2 stage structure + storage battery drive various automobile primes + increasing sphere ascending device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの3段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+重い物質の食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   3 stage structure of geothermal turbine blade section (4X) of the core geothermal turbine with the same diameter and the same length and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material for reducing the impact of material-critical substances are stored and stored in high pressure. + The compressed air is heated by geothermal heat and compressed air is recovered. Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの4段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   4 stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 13 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの5段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   5 stage structure of geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length as the encroaching liquid metal gravity cold / heat turbine (4F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けて高温水球を垂直下方に加速する構造や方法+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure and method of accelerating the hot water polo vertically downward by providing nine stages of the same-diameter, approximately-identical, same-length geothermal turbine with 18 times the core geothermal turbine blade cross section (4X) Electric drive and heat use prime + Collect geothermal heat with geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reducing materials + Compress heat air with geothermal heat Compressed heat recovery of geothermal heating air + Compressed heat recovery of cold turbine exhaust + Driven turbine blades 5 times the diameter of 1 to 12 turbines by horizontal axis (16A) + Geothermal air heater (2z) Various energy storage cycle coalescence engine provided in the drilling machine drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 10 stages + accelerating storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 11 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 12 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 13 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 14 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 15 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Structure of 16-stage geothermal power generation turbine with the same diameter and the same shape and length of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + the storage battery drive, the electric drive, and the warm use of the heat + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 17 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 18 times the same diameter and the same shape and the same length of geothermal turbine Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with three times the same diameter and approximately the same shape and length of geothermal power generation turbine provided in 19 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) with the same diameter and the same length and the same length of geothermal power generation turbines in 20 stages + the storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを21段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 21 stages + full electrification house prime + increase ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) provided in various drilling holes in a boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを22段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 6 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 22 stages + full electrified house prime + increasing ball lift device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled driving + geothermal air heater (2z) various energy storage cycle coalescing engine provided in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを23段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 23 stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various boring machine drilling holes combined with various energy storage cycle engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを24段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter and the same shape and the same length geothermal power generation ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Drives 1 to 12 turbines 4 times in diameter + Various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを25段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation ) Liquid metal and specific material impact-reducing materials are saved and stored + Compressed air is recovered by compressing air heated by geothermal heat and compressed heat is recovered + Compressed heat recovery from cold turbine exhaust + Reducing material impact relative to liquid metal Accelerating the material with compressed air and driving the turbine blades with a horizontal axis (16A) to drive 5 times the diameter of one to twelve turbines + Geothermal air heater (2z) in the drilling hole organ. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの26段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   26-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの27段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+より重い物質の高温水を垂直下方に加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power turbine 27-stage structure + storage battery drive various automobile prime + increase ball lift device (2F) The liquid metal and specific material impact reducing material are stored in the upside + compressed the geothermal heating air by compressing the air heated by geothermal heat + compressed heat recovery from the cold turbine exhaust + compressed heat recovery from the cold turbine exhaust + vertically below the hot water of heavier material Accelerating to a full-rotating blade turbine horizontal axis (16A), driving 1 to 12 turbines 3 times the diameter of the turbine + geothermal air heater (2z) in the boring machine drilling hole various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの28段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの29段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter and the same shape and the same length of geothermal power generation The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの30段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   30-stage structure of the geothermal turbine blade cross-section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various vehicles driven by storage batteries The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 31 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 32 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter and the same shape and the same length of geothermal power generation turbines provided in 33 stages + Storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 34 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 35 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを36段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 36 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを37段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power turbine provided in 37 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを38段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power turbine provided in 38 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを39段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 39 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを40段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 40 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 41 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 26 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 42 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and approximately the same shape and length of geothermal power generation turbine in 43 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine in 44 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 45 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを46段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 46 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled driving + geothermal air heater (2z) various energy storage cycle coalescing engine provided in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを47段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 47 stages + full electrification house prime + increasing sphere raising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various boring machine drilling holes combined with various energy storage cycle engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを48段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 48 stages + full electrified house prime + increasing sphere raising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Drives 1 to 12 turbines 4 times in diameter + Various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを49段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 49 stages + full electrified house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) provided in various drilling holes in a boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを50段に設けた構造+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length geothermal power generation ) Liquid metal and specific material impact-reducing materials are saved and stored + Compressed air is recovered by compressing air heated by geothermal heat and compressed heat is recovered + Compressed heat recovery from cold turbine exhaust + Reducing material impact relative to liquid metal Compressing the material with compressed air to drive 1 to 12 turbine diameters twice with the horizontal shaft (16A) of the encroaching blade + Geothermal air heater (2z) in the drilling hole organ. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの51段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   51-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの52段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 52-stage structure + battery-powered car priming + increasing sphere lifting device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの53段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 53-stage structure + storage battery drive various vehicles prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの54段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 54-stage structure + storage battery-powered automobiles primed The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの55段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 55 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and the same shape and the same length of geothermal power generation turbine in 56 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 16 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 58 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 59 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 60 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを61段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 61 stages + factory electrification prime-up + increasing ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを62段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+水合金を垂直下方に加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 62 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + accelerating water alloy vertically downward and eating Combined engine with 1 to 12 turbine diameters driven by a horizontal shaft (16A) of the embedded rotor blades + various energy conservation cycle coalescence engine with geothermal air heater (2z) in the drilling hole 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを63段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 63 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを64段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 64 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを65段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 24 times the same diameter and approximately the same shape and length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal turbine structure with 66 stages + storage battery drive, electric drive, and heat application prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を26倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 67 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 68 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 69 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 70 stages + accelerating storage battery drive, electric drive, and heat utilization + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを71段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 71 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを72段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 72 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを73段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 73 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを74段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine installed in 74 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを75段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 75 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの76段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   76-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの77段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 77 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの78段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   78-stage structure of a geothermal turbine blade section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの79段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 79 stage + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの80段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 80 stage structure + storage battery drive various automobile prime + increase ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 81 stages + storage battery drive, electric drive, and hot energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 82 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 83 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 84 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length Geothermal power generation turbine structure in 85 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを86段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 86 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを87段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 87 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを88段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 88 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを89段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with double the same diameter approximately the same shape and the same length geothermal power turbine installed in 89 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを90段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 90 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engines that accelerate compressed air and drive 1 to 12 turbine diameters twice with a horizontal axis (16A) of biting blades + geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine 4 times as much as the structure of the 91 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 92 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 93 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを96段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 96 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを97段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 97 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを98段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 98 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを99段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 99 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを100段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 100 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの101段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine 101 stage structure + storage battery drive various vehicles prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの102段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 102 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの103段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine 103 stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの104段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 104 stage structure + storage battery driven various vehicles prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの105段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 105 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine with 107 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 108 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 109 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを111段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 111 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを112段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 112 stages + Factory electrification prime + Intensifying sphere lifting device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 113 stages + plant electrification prime-up Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 114 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 115 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 116 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 117 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with 7 times the same diameter and the same shape and the same length of geothermal power generation turbine with 118 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter and the same shape and the same length geothermal power generation Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) Nine times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを1段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in one stage + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを2段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in two stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを3段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 3 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを4段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine is provided in 4 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを5段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 5 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの6段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   6-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 15 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの7段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   7-stage structure of a geothermal turbine blade section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold and cold turbine + accelerating various battery-powered vehicles + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの8段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eight-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with 17 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの9段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   9-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンの10段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Ten-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with 19 times the same diameter and the same shape and the same length of geothermal power generation turbine + battery-powered automobiles assortment + increasing sphere ascent device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 12 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 13 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 14 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 16 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを17段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with double the same diameter approximately the same shape and the same length geothermal power turbine installed in 17 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを18段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 18 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを19段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 4 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 19 stages + factory electrification prime + increase sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを20段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 20 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 21 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive, and heat application prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same length and geothermal power generation turbine in 24 stages + storage battery drive, electric drive and hot energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを26段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 26 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを27段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 27 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを28段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 28 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを29段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 29 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを30段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 30 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの31段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power turbine 31-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの32段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine 32-stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの33段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine 33 stage structure + storage battery drive various cars prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンの34段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンの35段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 35 stage structure + storage battery drive various automobile primes + Intensifying sphere climbing device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length geothermal power turbines in 36 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 37 stages + accelerating storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 38 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 39 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを41段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine installed in 41 stages + Factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを42段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 3 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 42 stages Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを43段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 43 stages Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを44段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 44 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを45段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 45 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 47 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 48 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 50 stages + accelerating storage battery drive, electric drive, and heat utilization + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを51段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 51 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを52段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 52 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを53段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 53 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを54段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 54 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを55段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 55 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの56段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generator 56-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの57段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18-fold same-diameter, approximately-identical, same-length geothermal turbine 57-stage structure + storage battery-powered car priming + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンの58段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine 58 stage structure + storage battery drive various automobile primes + Intensifying sphere climbing device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンの59段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generator 59-stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンの60段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The 60-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine of the bite liquid metal gravity cooling and heating turbine. The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンの61段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) is 22 times the same diameter and approximately the same shape and length of geothermal power turbine 61-stage structure + storage battery driven prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの62段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) is 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 62 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの63段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 63 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの64段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 64 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの65段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with double diameter of approximately the same shape and length of geothermal power generation turbine 65-stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heated air and compressed heat recovery + Compressed heat recovery of chilled turbine exhaust + Compressed air with liquid metal and specific material impact reducing material Accelerating, driving 1 to 12 turbine diameters 5 times with a horizontal axis (16A) of biting blades + various energy storage cycle coalescing engines with geothermal air heaters (2z) provided in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの66段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 66x Structure of Geothermal Power Generation Turbine with Same Diameter and Same Shape and Same Length + Accumulated Battery Driven Prime + Liquid Metal with Increasing Ball Lifting Device (2F) Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンの67段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine 67 stage structure + storage battery driven prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの68段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 68 times structure of the same diameter approximately the same shape and the same length geothermal power turbine + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの69段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関.   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6-times Same Diameter and Same Shape and Same Length Geothermal Power Turbine 69 Stage Structure + Battery Driven Prime + Liquid Ball Lifting Device (2F) Liquid Metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbines 5 times the diameter of the turbine + various energy conservation cycle coalescence engine with geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの70段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 70 times structure of the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heated air and compressed heat recovery + Compressed heat recovery of chilled turbine exhaust + Compressed air with liquid metal and specific material impact reducing material Accelerating, driving 1 to 12 turbine diameters twice with the horizontal axis (16A) of the biting rotor blades + various energy conservation cycle coalescing engines with geothermal air heaters (2z) in the drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを71段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure provided in 71 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを72段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 72 stages + accelerating the storage battery driven various vessels In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを73段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine Core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 73 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを74段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 74 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを75段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 75 stages + storage battery driven various ship priming (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 3 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 76 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 77 stages + storage battery drive various vessel prime + increase sphere rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure provided in 78 stages + storage battery drive various vessel prime + increase sphere ascent device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 79 stages + storage battery driven various vessel prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 80 stages + storage battery drive various vessel prime + increase sphere rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 81 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 82 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 84 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 85 stages + storage battery driven various ship priming In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 86 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 87 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 88 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbines in 89 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 91 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 92 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 6-times same diameter, approximately the same shape, same length, geothermal power turbine structure in 93 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 94 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 95 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 96 stages + storage battery driven various ships prime (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 4 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 97 stages (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air to drive 5 times the turbine diameter of 1 to 12 turbine blades with a horizontal blade (16A) + geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 98 stages + storage battery-powered various ship prime (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbine diameters twice with a full-rotating blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 99 stages (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 3 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 4 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 101 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 102 stages + storage battery drive various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, with a combined bolt assembly turbine diameter twice as many as a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 103 stages + storage battery driven various ship prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with generators and heat pumps with three times the diameter of the combined bolt assembly turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 104 stages + storage battery driven various vessel prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 105 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 106 stages + storage battery drive, electric drive, and heat application Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat heated geothermal air Compressed heat recovery + Compressed heat recovery from chilled turbine exhaust + Driven double turbine diameters of 1 to 12 turbines by horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 20 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine with 107 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat geothermal heating air Compressed heat recovery + Compressed heat recovery from cold turbine exhaust + Driven turbine blade shaft horizontal axis (16A) drives 1 to 3 turbine diameters 3 times + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 108 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives 4 times the turbine diameter of 1 to 12 turbines by the horizontal shaft (16A) + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 109 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat the geothermal heating air Compressed heat recovery + Compressed heat recovery from the cold turbine exhaust + Drives 5 times the turbine diameter of 1 to 12 turbines with a horizontal shaft (16A) biting + Geothermal air heater Various energy storage cycle coalescing engines (2z) provided in drilling holes for boring machines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 110 stages + storage battery drive, electric drive, and warm use Collected by a geothermal air heater (2z) + ascending the head as much as possible with a pumping device (1J) + ascending and storing liquid metal and specific material impact reducing material with an increasing ball lifting device (2F) + heated by geothermal heat Compressed air to heat geothermal heating air to heat compression heat recovery + Compressed heat recovery to cold turbine exhaust + Liquid metal and specific material impact reduction material Compressed air accelerated 1 bit by full blade blade horizontal axis (16A) Drives 12 turbine diameters twice and combines various energy storage cycle engines with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 111 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 25 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 112 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + structure battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 115 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Incremental factory electrification prime (2F) with an engraving liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 117 stages + Factory electrification prime + Increase ball riser (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 7 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 118 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを多119段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 119 stages + factory electrification prime-up + sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 120 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with two stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 4 stages + the storage battery drive, electric drive, and the use of thermal energy. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 5 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 6 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and the same shape and the same length of geothermal power generation turbine is installed in 7 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in 8 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 9 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine is installed in 10 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンの11段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   11-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cooling / heating turbine + storage battery-powered automobiles assortment + increasing sphere raising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンの12段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   12-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンの13段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The 13-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine of the bite liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの14段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   14-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの15段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   15-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine + storage battery-powered automobiles assortment + increasing sphere raising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 25 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 16 stages + storage battery drive prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) having the same diameter and the same shape and the same length of geothermal power generation turbine in 17 stages + structure to drive battery drive + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter and the same shape and the same length geothermal power generation turbine structure with 18 stages + storage battery drive prime + increasing sphere ascending device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 19 stages + storage battery drive prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length, geothermal power generation The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを21段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length geothermal power turbine installed in 21 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを22段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを23段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 8 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 23 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを24段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 24 stages + Factory electrification prime + Increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを25段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 25 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 27 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 28 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape and the same length geothermal power generation turbines in 29 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines provided in 30 stages + the storage battery drive, electric drive, and the use of thermal energy + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを31段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを32段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 32 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを33段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 33 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを34段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 34 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを35段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 35 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンの36段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   36-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered automobiles + the rising sphere lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンの37段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   37-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの38段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine with 38-stage structure + storage battery driven various vehicles The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの39段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 39 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの40段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   40-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power generation turbine as the edging liquid metal gravity cooling and heating turbine The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine in 41 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with three times the same diameter and the same shape and the same length of geothermal power generation turbine in 42 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 43 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 44 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 45 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを46段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 46 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを47段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 47 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを48段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 48 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを49段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 49 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを50段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 50 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engines that accelerate compressed air and drive 1 to 12 turbine diameters twice with a horizontal axis (16A) of biting blades + geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 12 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 15 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 54 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 55 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを56段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 56 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを57段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 57 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを58段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを59段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided 59 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを60段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 60 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンの61段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   61-stage structure of a geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの62段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) is 23 times the same diameter and approximately the same shape and length of geothermal power generation turbine 62 stage structure + storage battery drive various automobile prime + increase ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの63段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated sphere lift device (2F) with a 63-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine of a bite liquid metal gravity cooling / cooling turbine, 24 times the same diameter, approximately the same shape, the same length, geothermal power generation The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの64段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 64 stage structure + storage battery driven various vehicles The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの65段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbine 65-stage structure + battery-powered various cars prime + Intensifying ball lift device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine in 67 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 68 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 69 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 70 stages + accelerating storage battery drive, electric drive, and heat utilization + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを71段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 71 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを72段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 72 stages + plant electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを73段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 73 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを74段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 74 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを75段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) 12 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 75 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 76 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 77 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 15 times the same diameter and the same shape and the same length Geothermal power generation structure with 78 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 80 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを81段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 81 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを82段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine provided in 82 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを83段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 83 stages + full electrification house prime + increasing sphere climbing device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを84段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 84 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを85段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 85 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの86段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generator 86 stage structure + storage battery drive various automobile prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの87段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) is 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 87 stage structure + storage battery driven various vehicles prime + increasing sphere lifting device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの88段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eight-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter approximately the same shape and the same length as the geothermal power generation turbine of the bite liquid metal gravity cooling and heating turbine + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの89段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with double diameter, same shape, same length, geothermal power generation turbine with 89 stage structure + storage battery driven various cars The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの90段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   90-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered vehicles + the rising sphere lift device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine 4 times as much as the structure of the 91 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 92 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 93 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 94 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 95 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを96段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine installed in 96 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを97段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 10 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 97 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを98段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 98 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを99段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 99 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを100段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine installed in 100 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 101 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 15 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) with 16 times the same diameter and the same shape and the same length as the geothermal power generation turbine, which is 103 times the stage of the biting liquid metal gravity cold heat turbine. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 104 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 18 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを106段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 106 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを107段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 107 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを108段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 108 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを109段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 109 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを110段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 110 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの111段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with the same diameter, approximately the same shape, the same length, and the same length of geothermal power generator, 111-stage structure + storage battery drive, and a variety of vehicles The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの112段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 25 times the same diameter approximately the same shape and the same length geothermal power generator 112-stage structure + storage battery drive various automobile prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの113段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The 113-stage structure of the geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの114段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   114-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and approximately the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンの115段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   115-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with 4 times the same diameter and the same shape and the same length of geothermal power turbines as the prime of various automobiles driven by storage batteries + the increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 116 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 117 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with 7 times the same diameter and the same shape and the same length of geothermal power generation turbine with 118 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter and the same shape and the same length geothermal power generation Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) Nine times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを1段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 10 times the same diameter and the same shape and the same length of geothermal power turbine installed in one stage + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを2段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 2 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを3段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 3 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを4段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine installed in 4 stages + factory electrification prime-up + sphere rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを5段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 5 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 9 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 10 stages + accelerating storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine is installed in 11 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power turbines in 12 stages + full electrification house prime + increasing ball lift device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 13 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 14 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 15 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの16段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   16-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter approximately the same shape and the same length as the encroaching liquid metal gravity cooling and heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの17段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   17-stage structure of geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの18段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eight-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンの19段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   19-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with 4 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの20段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   20-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine. The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを21段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine in 21 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを22段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 22 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを23段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 23 stages + storage battery drive, electric drive, and heat application prime + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを24段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and approximately the same length and geothermal power generation turbine in 24 stages + storage battery drive, electric drive and hot energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを25段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 25 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを26段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 26 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを27段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 12 times the same diameter and approximately the same shape and the same length geothermal power turbine is installed in 27 stages + Factory electrification prime + Increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを28段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated sphere climbing device (2F) with an engraving liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape and the same length geothermal power generation turbine installed in 28 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを29段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 29 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを30段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length geothermal power turbines are arranged in 30 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engines that accelerate compressed air and drive 1 to 12 turbine diameters twice with a horizontal axis (16A) of biting blades + geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 31 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 32 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 33 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 34 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 35 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを36段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 36 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを37段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 37 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを38段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 38 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを39段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 39 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを40段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 25 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 40 stages + Fully electrified house prime + Increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンの41段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   41-stage structure of geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold and cold turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの42段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   42 stage structure of geothermal turbine blade section (4X) of core geothermal turbine with 3 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンの43段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power generation turbine 43-stage structure + storage battery drive various vehicle prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの44段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   44-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of a biting liquid metal gravity cooling and heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの45段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Ingot liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 45 times structure of geothermal power generation turbine with the same diameter and shape of the same length 6 times + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery from the liquid metal and material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを46段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 46 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを47段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 47 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを48段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Equipped liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 48 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを49段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを50段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 50 stages + accelerating storage battery drive, electric drive, and heat utilization + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを51段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 51 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを52段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 52 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを53段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 14 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 53 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを54段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 54 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを55段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 55 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 17 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 19 times the same diameter and the same shape and the same length Geothermal power generation turbine structure with 58 stages + Storage battery drive, electric drive and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 59 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, and the same length of geothermal power generation turbines in 60 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを61段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 61 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを62段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine provided in 62 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを63段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 63 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを64段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length geothermal power turbine installed in 64 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを65段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with twice the same diameter and the same shape and the same length of geothermal power generation turbine installed in 65 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンの66段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   66-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of various vehicles driven by storage batteries + Intensifying sphere ascending device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンの67段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   67-stage structure of geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンの68段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   68-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with 5 times the same diameter and the same shape and the same length as the engraving liquid metal gravity cooling and heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの69段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   69-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with 6 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの70段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   70-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroachment of the various battery-powered automobiles + the rising sphere lift device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery from the liquid metal and material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの71段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter approximately the same shape and the same length geothermal power generation turbine 71 stage structure + storage battery drive prime + liquid ball rising device (2F) liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの72段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generator 72 stage structure + storage battery drive prime + liquid ball lift device (2F) liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの73段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter approximately the same shape and the same length geothermal power generation turbine 73 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの74段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generator 74 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの75段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 12 times the same diameter approximately the same shape and the same length geothermal power generation turbine 75 stage structure + storage battery drive prime + liquid ball rising device (2F) liquid metal Compressed and recovered geothermal heated air and compressed heat recovery + Compressed heat recovery of chilled turbine exhaust + Compressed air with liquid metal and specific material impact reducing material Accelerating, driving 1 to 12 turbine diameters 3 times by the horizontal axis (16A) of the biting rotor blades + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in the drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの76段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape and the same length, geothermal power generator 76 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 4 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの77段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14-fold Same-diameter, Same-shaped, Same-length Geothermal Power Turbine with 77-stage structure + Storage battery drive prime + Liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 5 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの78段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) with 15 times the same diameter and approximately the same shape and the same length geothermal power generation turbine 78 stage structure + battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters are driven twice + geothermal air heater (2z) is installed in various drilling holes for various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの79段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) is 16 times the same diameter approximately the same shape and the same length geothermal power turbine with 79-stage structure + battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heating air and compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Compressed full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 3 times driven + geothermal air heater (2z) in various drilling holes combined with various energy conservation cycles. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの80段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine 80 stage structure + storage battery drive prime + liquid ball riser (2F) with liquid metal Compressed and recovered geothermal heated air and compressed heat recovery + Compressed heat recovery of chilled turbine exhaust + Compressed air with liquid metal and specific material impact reducing material Accelerating, driving 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting blades + various energy conservation cycle coalescence engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを81段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 81 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを82段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 82 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを83段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 20 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 83 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを84段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 84 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを85段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 85 stages + storage battery driven various ship priming (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air to drive 5 times the turbine diameter of 1 to 12 turbine blades with a horizontal blade (16A) + geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 86 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 87 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 88 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with double the same diameter and the same shape and the same length of geothermal power generation turbines in 89 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 90 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを91段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 91 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを92段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 92 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを93段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 6-times same diameter, approximately the same shape, same length, geothermal power turbine structure in 93 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを94段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 94 stages + storage battery drive various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを95段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 95 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを96段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 96 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを97段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 97 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを98段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 98 stages + storage battery-powered various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを99段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 99 stages In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを100段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length, geothermal power generation In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 101 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 102 stages + storage battery drive various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines with double diameter on horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in borehole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 103 stages + storage battery driven various ship prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Drives 1 to 12 turbines 3 times on a horizontal axis (16A) + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 104 stages + storage battery driven various vessel prime + increase ball rising device In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 4 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 105 stages + storage battery driven various ships prime In (2F), liquid metal and specific material impact reducing material are raised and stored + geothermal heating air is compressed to heat the geothermal heating air compressed heat recovery + cold turbine exhaust is compressed heat recovery + full bite turbine Various energy storage cycle coalescing engines with a horizontal axis (16A) driving 1 to 12 turbine diameters 5 times + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを106段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 106 stages (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbine diameters twice with a full-rotating blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを107段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine in 107 stages + storage battery driven various ship priming (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 3 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを108段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbines 4 times the diameter of the full blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを109段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 109 stages + storage battery driven various ships prime (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air to drive 5 times the turbine diameter of 1 to 12 turbine blades with a horizontal blade (16A) + geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを110段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation (2F) Ascend and store liquid metal and specific material impact reducing material + Compress air heated by geothermal heat to compress compressed heat recovery + Recover heat from cold turbine exhaust + Recover heat from compressed heat + Liquid metal and specific material Accelerate the impact-reducing material with compressed air, drive 1 to 12 turbine diameters twice with a full-rotating blade rotor shaft (16A) + provide geothermal air heater (2z) in the drilling hole Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape and the same length geothermal power generation structure with 111 stages + storage battery drive various vessel prime + increase sphere rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with generators and heat pumps with three times the diameter of the combined bolt assembly turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 112 stages In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + structure storage battery driven various vessel prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with a generator and heat pump in multiple stages with a combined bolt assembly turbine diameter 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) three times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 114 stages + storage battery drive various vessel prime + increase ball rising device In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles, with a combined bolt assembly turbine diameter twice as many as a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 115 stages + storage battery driven various ships prime In (2F), the liquid metal and the material for reducing the impact of specific serious substances are raised and stored. + The compressed air is heated by geothermal heat and compressed heat is recovered by heating the geothermal heated air. Combined engine with various energy storage cycles equipped with generators and heat pumps with three times the diameter of the combined bolt assembly turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 116 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 117 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven turbine blades 5x 1 to 12 times in horizontal axis (16A) + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with 7 times the same diameter and the same shape and the same length of geothermal power generation turbine with 118 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Driven by double blade diameter of 1 to 12 turbines with horizontal shaft (16A) biting + Boring geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを119段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 8 times the same diameter and the same shape and the same length geothermal power generation Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery for geothermal heated air + Compressed heat recovery for cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Boring a geothermal air heater (2z) Various energy storage cycle coalescence engine installed in machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) Nine times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 120 stages + storage battery drive, electric drive, and warm use Is collected by a geothermal air heater (2z) + a head is increased by an increase ball rising device + a liquid metal and a specific material impact reduction material are increased and stored by an increase ball rising device (2F) + the heating air is compressed by geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Compressed air from liquid metal and specific material impact reduction material Compressed air accelerating 1 to 12 turbines on the horizontal axis (16A) Combined various energy storage cycle engines with 4x diameter drive + geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを1段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in one stage + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを2段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with two stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを3段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 12 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in three stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを4段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length as the geothermal power generation turbine in 4 stages + the storage battery drive, electric drive, and the use of thermal energy. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを5段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 5 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 6 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and the same length geothermal power generation turbine installed in 7 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 17 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 8 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 9 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 10 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engines that accelerate compressed air and drive 1 to 12 turbine diameters twice with a horizontal axis (16A) of biting blades + geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 11 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length of geothermal power generation turbine in 12 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 13 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 14 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 15 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 16 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを17段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 17 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを18段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 18 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを19段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 19 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを20段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 20 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンの21段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   21-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cold and hot turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの22段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 7 times the same diameter approximately the same shape and the same length geothermal power generation turbine 22 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの23段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   23-stage structure of geothermal turbine blade section (4X) of the core geothermal turbine of the encroaching liquid metal gravity cold heat turbine with the same diameter and the same shape and the same length of geothermal power generator. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの24段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter approximately the same shape and the same length geothermal power generation turbine 24 stage structure + storage battery drive various automobile prime + increasing sphere lifting device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの25段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 25-stage structure + battery-powered car priming + increasing ball riser (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを26段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 26 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを27段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 12 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 27 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを28段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 28 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを29段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 14 times the same diameter, approximately the same shape and the same length geothermal power generation turbines in 29 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを30段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines provided in 30 stages + the storage battery drive, electric drive, and the use of thermal energy + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを31段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 31 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを32段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 32 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを33段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 33 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを34段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 34 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを35段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 35 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを36段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and the same shape and the same length geothermal power turbines in 36 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを37段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 22 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 37 stages + accelerating storage battery drive, electric drive and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを38段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 38 stages + storage battery drive, electric drive, and heat application Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを39段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 39 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを40段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 40 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを41段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine doubled in 41 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを42段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length of geothermal power generation turbine provided in 42 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを43段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 43 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを44段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 44 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを45段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 45 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンの46段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   46-stage structure of a geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and approximately the same shape and the same length of geothermal power turbines as a plunging liquid metal gravity cold heat turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの47段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   47-stage structure of a geothermal turbine blade section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of an encroaching liquid metal gravity cooling and heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの48段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   48-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 9 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの49段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   49-stage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cold heat turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの50段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 50 stage structure + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery from the liquid metal and material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを51段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 12 times the same diameter and the same shape and the same length geothermal power generation turbine structure in 51 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを52段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 52 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを53段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 14 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 53 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを54段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 15 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 54 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを55段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 55 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Accelerated compressed air for liquid metal and specific material impact-reducing material to drive 1 to 12 turbine diameters 3 with a horizontal axis (16A) of bite turbine + Geothermal air heating Various energy conservation cycle coalescing engines that provide the machine (2z) in the drilling hole of the boring machine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを56段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 17 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 56 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを57段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 57 stages + factory electrification prime + intensifying ball climbing device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを58段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 58 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを59段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 59 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを60段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 60 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを61段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 22 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 61 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを62段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 23 times the same diameter and the same shape and the same length of geothermal power generation turbine in 62 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを63段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 63 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを64段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 64 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを65段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine with 65 stages + Structured battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを66段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 66 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを67段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 67 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを68段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 68 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを69段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 69 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを70段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 70 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンの71段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   71-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with an 8 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの72段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   72-stage structure of the geothermal turbine blade cross section (4X) of the cored geothermal turbine with 9 times the same diameter and the same shape and the same length of geothermal power turbine as the prime of various automobiles driven by storage batteries + Intensifying sphere raising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの73段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 73 stage structure + storage battery driven various vehicles prime + increasing sphere raising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの74段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine 74 stage structure + storage battery driven various vehicles prime + increasing sphere climbing device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの75段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   75-stage structure of geothermal turbine blade cross-section (4X) of the cored geothermal turbine with the same diameter and the same shape and length of the encroaching liquid metal gravity cooling turbine + storage battery driven various automobiles + increasing sphere ascending device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンを76段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 13 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 76 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを77段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 14 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 77 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを78段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 15 times the same diameter and the same shape and the same length Geothermal power generation structure with 78 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを79段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 79 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを80段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 80 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを81段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 81 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを82段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 82 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを83段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 83 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを84段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 84 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを85段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 85 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを86段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 23 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 86 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを87段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter and approximately the same shape and the same length geothermal power generation turbine in 87 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを88段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 25 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 88 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを89段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length geothermal power generation turbine in 89 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを90段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with three times the same diameter and the same shape and the same length of geothermal power generation turbine in 90 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを91段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 4 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 91 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを92段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 5 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 92 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを93段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 93 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを94段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 94 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを95段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 95 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンの96段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   96-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 9 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの97段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The 97-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbine as the encroaching liquid metal gravity cold heat turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの98段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine 98 stage structure + storage battery driven various vehicles prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの99段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 12 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine 99 stage structure + storage battery driven various automobiles primed + sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの100段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engagement liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 100 times structure of geothermal power generation turbine with the same diameter and the same shape with the same diameter 13 times + storage battery drive various cars prime + increase ball lift device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンを101段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 14 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 101 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを102段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 15 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 102 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを103段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade section (4X) with 16 times the same diameter and the same shape and the same length as the geothermal power generation turbine, which is 103 times the stage of the biting liquid metal gravity cold heat turbine. Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを104段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 104 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを105段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 18 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 105 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを106段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 19 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 106 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを107段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 107 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを108段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 108 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを109段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 22 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 109 stages + factory electrification prime + increase ball riser (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを110段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power turbine installed in 110 stages + factory electrification prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engines that accelerate compressed air and drive 1 to 12 turbine diameters twice with a horizontal axis (16A) of biting blades + geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを111段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation structure with 111 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを112段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 25 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure with 112 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを113段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 113 stages + structure battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを114段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 114 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを115段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine is installed in 115 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを116段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 116 stages + Fully electrified house prime + Increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを117段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter and the same shape and the same length of geothermal power generation turbine installed in 117 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを118段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter and the same shape and the same length geothermal power generation turbine is installed in 118 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを119段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 119 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを120段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 120 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 4 times with a horizontal axis (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycle . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンの1段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   1-stage structure of the geothermal turbine blade section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling and heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの2段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter, approximately the same shape, the same length geothermal power generation turbine 2 stage structure + storage battery drive various automobile primes + increasing sphere ascending device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの3段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   3 stage structure of geothermal turbine blade section (4X) of the core geothermal turbine with the same diameter and the same length and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの4段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   4 stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with a 13 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの5段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   5 stage structure of geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length as the encroaching liquid metal gravity cold / heat turbine (4F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンを6段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 15 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 6 stages + storage battery drive, electric drive, and warm energy use + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを7段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter, approximately the same shape and the same length geothermal power generation turbine in 7 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを8段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 17 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure with 8 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを9段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 18 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure with 9 stages + storage battery drive, electric drive, and warm use of heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを10段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   The structure of the geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbines in 10 stages + accelerating storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを11段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter, approximately the same shape, the same length geothermal power turbine is installed in 11 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを12段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter and approximately the same shape and the same length geothermal power generation turbine is installed in 12 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを13段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 13 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを14段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 14 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを15段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power generation turbine is installed in 15 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを16段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Structure of 16-stage geothermal power generation turbine with the same diameter and the same shape and length of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + the storage battery drive, the electric drive, and the warm use of the heat + geothermal heat Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを17段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) with the same diameter and the same shape and the same length of geothermal power generation turbine in 17 stages + Structured battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを18段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 3 times the same diameter and the same shape and the same length of geothermal power generation turbine in 18 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを19段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 19 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを20段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Eating-in liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 20 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを21段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 6 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 21 stages + full electrified house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを22段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 22 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを23段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 23 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを24段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 24 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを25段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape and the same length geothermal power generation turbine provided in 25 stages + full electrification house prime + increasing sphere rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery from the liquid metal and material Compressed air accelerating and driving 1 to 12 turbines 5 times in diameter with a full-rotating blade rotor shaft (16A) + geothermal air heater (2z) in various drilling holes . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンの26段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   26-stage structure of a geothermal turbine blade section (4X) of the core geothermal turbine with 11 times the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの27段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) with 12 times the same diameter and the same shape and the same length of geothermal power generation turbine 27 stage structure + storage battery drive various automobile prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの28段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated sphere lift (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの29段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Engraving liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 14 times the same diameter and the same shape and the same length of geothermal power generation The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの30段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   30-stage structure of a geothermal turbine blade section (4X) with the same diameter and the same shape and the same length as the encroaching liquid metal gravity cooling / heating turbine. The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンを31段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 16 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 31 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを32段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 17 times the same diameter and the same shape and the same length geothermal power generation turbine provided in 32 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを33段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 18 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 33 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを34段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure with 34 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを35段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and length of geothermal power generation turbine in 35 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact-reducing material compressed air to drive 1 to 12 turbine diameters 3 times by full-rotating blade turbine horizontal axis (16A) + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを36段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 21 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 36 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを37段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) with 22 times the same diameter and the same shape and the same length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを38段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power turbine provided in 38 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを39段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 24 times the same diameter and the same shape and the same length geothermal power generation turbine installed in 39 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを40段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter and approximately the same shape and the same length geothermal power turbine installed in 40 stages + Factory electrification prime + Intensifying sphere climbing device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを41段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) with the same diameter and the same shape and the same length geothermal power generation turbine in 41 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを42段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with three times the same diameter and the same shape and the same length of geothermal power generation turbine in 42 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを43段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 4 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 43 stages + accelerating storage battery drive, electric drive, and hot energy use + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを44段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 5 times the same diameter and approximately the same shape and length of geothermal power generation turbines in 44 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを45段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 6 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 45 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを46段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 46 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを47段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 8 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in 47 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを48段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Evaporating liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 9 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 48 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを49段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation turbine provided in 49 stages + full electrification house prime + increase ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを50段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 11 times the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 50 stages + full electrification house prime + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters twice with a horizontal blade (16A) of biting blades + Geothermal air heater (2z) provided in drilling holes for various energy conservation cycles . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンの51段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   51-stage structure of geothermal turbine blade cross-section (4X) of the cored geothermal turbine with the same diameter and the same shape and the same length of geothermal power turbines as the prime of various vehicles driven by storage batteries + Intensifying sphere ascending device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters 3 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの52段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 13 times the same diameter, approximately the same shape and the same length, geothermal power generation turbine 52 stage structure + storage battery driven various cars The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 4 times the turbine diameter of 1-12 turbines + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in borehole drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの53段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 53 times structure of the same diameter and same shape and same length geothermal power generation turbine 14 times larger + storage battery drive various automobile primes + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 5 times the diameter of 1-12 turbines + Combined engine of various energy conservation cycles with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの54段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 15 times the same diameter approximately the same shape and the same length geothermal power generation turbine 54 stage structure + storage battery drive various automobile primes + increasing sphere ascent device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Drives 1 to 12 turbine diameters twice + various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの55段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 16 times the same diameter and approximately the same shape and length of geothermal power generation turbine 55 stage structure + storage battery driven various automobile primes + increasing ball rising device (2F) The liquid metal and specific material impact-reducing material are stored in a high temperature + Compressed heat recovery from geothermal heating air by compressing the air heated by geothermal heat + Recovered heat from the cold turbine exhaust + Compressed heat recovery material from liquid metal + Specific material shock reducing material Compressed air accelerating and driving 1 to 12 turbine diameters 3 times by horizontal axis (16A) of biting rotor blade + Geothermal air heater (2z) in drilling hole . 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンを56段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 17 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine structure in 56 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンを57段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine structure in 57 stages + storage battery drive, electric drive, and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンを58段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 19 times the same diameter and the same shape and the same length Geothermal power generation turbine structure with 58 stages + Storage battery drive, electric drive and hot energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンを59段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cryogenic turbine core geothermal turbine blade cross section (4X) 20 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure in 59 stages + storage battery drive, electric drive and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンを60段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Elevated liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter, approximately the same shape, and the same length of geothermal power generation turbines in 60 stages + storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Liquid metal and specific material impact reduction material compressed air accelerated to drive 4 times the turbine diameter of 1 to 12 turbines with a horizontal blade (16A) biting + Geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンを61段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 61 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンを62段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 23 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 62 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンを63段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter approximately the same shape and the same length geothermal power turbine is installed in 63 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンを64段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter approximately the same shape and the same length geothermal power generation turbine installed in 64 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍の同径略同形同長地熱発電タービンを65段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross-section (4X) with double the same diameter approximately the same shape and the same length geothermal power generation turbine provided in 65 stages + factory electrification prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters 5 times by horizontal axis (16A) of biting turbine + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍の同径略同形同長地熱発電タービンを66段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross-section (4X) 3 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 66 stages + storage battery drive, electric drive, and warm energy use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades (16A) drive 1 to 12 turbine diameters twice + Geothermal air heater (2z) installed in drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍の同径略同形同長地熱発電タービンを67段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 4 times the same diameter, approximately the same shape, the same length Geothermal power generation turbine in 67 stages + Storage battery drive, electric drive, and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from the cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 3 times the diameter of 1 to 12 turbines + Geothermal air heater (2z) provided in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍の同径略同形同長地熱発電タービンを68段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion Liquid Metal Gravity Cooling Turbine Core Geothermal Turbine Blade Cross Section (4X) 5 times the same diameter and approximately the same shape and the same length geothermal power generation turbine structure with 68 stages + storage battery drive, electric drive and warm use Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 4 to 12 turbine diameters + Geothermal air heater (2z) in borehole drilling holes Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍の同径略同形同長地熱発電タービンを69段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine core geothermal turbine blade cross section (4X) 6 times the same diameter, approximately the same shape and the same length geothermal power generation turbine structure in 69 stages + storage battery drive, electric drive, and warm use prime heat + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Driven turbine blades with a horizontal axis (16A) driving 1 to 12 turbines 5 times in diameter + Geothermal air heater (2z) installed in drilling holes for various energy storage Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍の同径略同形同長地熱発電タービンを70段に設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 7 times the same diameter, approximately the same shape, the same length geothermal power generation turbine structure in 70 stages + accelerating storage battery drive, electric drive, and heat utilization + geothermal Collected by geothermal air heater (2z) + Increased sphere rising device (2F) to save and store liquid metal and specific material impact reducing material + Compressed heat of geothermal heated air by compressing heated air with geothermal heat + Compressed heat recovery from cold turbine exhaust + Compressed air of liquid metal and specific material impact reducing material compressed air to drive twice the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the bite + geothermal air Various energy conservation cycle coalescing engines with heaters (2z) in boreholes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 8 times the same diameter and the same shape and the same length of geothermal power turbine installed in multiple stages + full electrification house prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 9 times the same diameter and the same shape and the same length of geothermal power turbine installed in multiple stages + full electrification house prime + increase ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 10 times the same diameter, approximately the same shape, the same length geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 11 times the same diameter and approximately the same shape and length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 12 times the same diameter and the same shape and the same length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy conservation cycle coalescence engine with acceleration of compressed air to drive 1 to 12 turbine diameters triple with horizontal axis (16A) of biting rotor + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   With a multistage structure of geothermal turbine blade cross section (4X) of the cored geothermal turbine with 13 times the same diameter and the same shape and the same length of geothermal power generation turbine + battery-powered various vehicles prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives 4 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Multi-stage structure of the geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cold heat turbine with the same diameter and the same shape and the same length as the geothermal power generation turbine. Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) To drive 5 times the turbine diameter of 1 to 12 units + various energy storage cycle coalescing engines provided with geothermal air heaters (2z) in drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Multi-stage structure of geothermal turbine blade cross section (4X) of cored geothermal turbine with 15 times the same diameter and the same shape and the same length of geothermal power generation turbine + storage battery drive various automobiles + with an increasing ball rising device (2F) Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drives twice the turbine diameter of 1-12 turbines + Various energy storage cycle coalescing engine with geothermal air heater (2z) installed in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Multi-stage structure of geothermal turbine blade cross section (4X) with the same diameter and approximately the same shape and the same length of geothermal turbine blades of the encroaching liquid metal gravity cooling and heating turbine Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Drive 1 to 12 turbine diameters 3 times + Geothermal air heater (2z) in various boring machine drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Multi-stage structure of geothermal turbine blade cross-section (4X) of the encroaching liquid metal gravity cold heat turbine with 17 times the same diameter and the same shape and the same length of geothermal power generation Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + liquid metal and specific material impact reduction material Various energy storage cycle coalescence engine with acceleration of compressed air, driving 1 to 12 turbine diameters 4 times by horizontal axis (16A) of biting blade + geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 18 times the same diameter, approximately the same shape, the same length, geothermal power generation turbine multistage structure + storage battery drive prime + increase ball riser (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters 5 times + Combines various energy conservation cycle engines with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 19 times the same diameter, approximately the same shape, the same length geothermal power generation turbine multistage structure + storage battery drive prime + increase ball riser (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters twice and combines various energy storage cycle engines with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 20 times the same diameter and approximately the same shape and the same length of geothermal power generation turbine + storage battery drive prime + increase ball riser (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters 3 times + Various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 21 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + increase ball riser (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters 4 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+液体金属と比重大物質衝撃低減材料を圧縮空気加速して食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。 Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 22 times the same diameter approximately the same shape and the same length geothermal power turbine multistage structure + storage battery drive prime + increase ball riser (2F) with liquid metal Releasing material impact reduction material + Compressing air heated by geothermal heat to heat compressed geothermal heated air + Recovering heat from cold turbine exhaust + Compressed air recovery from liquid metal and specific material impact reducing material compressed air Then, 1 to 12 turbine diameters are driven by the horizontal axis (16A) of the biting rotor blades, and the combined energy storage cycle engine is provided with a geothermal air heater (2z) in the drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) multi-stage structure of the same diameter and approximately the same length and geothermal power generation turbine of 23 times + storage battery drive prime + increase ball rising device (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters twice and combines various energy storage cycle engines with geothermal air heater (2z) in borehole drilling holes. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / heat turbine core geothermal turbine blade cross section (4X) 24 times the same diameter, approximately the same shape, the same length geothermal power generation turbine multistage structure + storage battery drive prime + increase ball riser (2F) with liquid metal Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters 3 times + Various energy storage cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に設ける各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 25 times the same diameter, approximately the same shape and the same length of geothermal power turbine Increased and stored the material for reducing the impact of specific serious substances + Compressed air heated by geothermal heat to heat compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + 1 bite with full blade blade horizontal axis (16A) Drives 12 turbine diameters 4 times + Various energy conservation cycle coalescing engine with geothermal air heater (2z) in drilling hole. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 5 times larger in diameter and equipped with a generator and heat pump in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with a generator and heat pump in 7 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc. with 12 to 4 turbine diameters of 4 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with a turbine diameter of 1 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc. with 2 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided in 25 stages, etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc. with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン5径倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump installed in 33 stages for bolt assembly turbine 5 diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter doubled to 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with 35 times the bolt assembly turbine diameter 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 4 times 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 5 times 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 38 stages etc. A generator and heat pump were provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters tripled to 39 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 40 generators and heat pumps, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times 41 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Inverted blade blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 42 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 44 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are installed in 48 stages of 4 to 12 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are installed in 49 stages, etc., with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 51 stages, etc., with 3 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 52 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 57 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery + full bite turbine blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 6 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 7 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages etc. with 4 times the turbine diameter 4 times by 1 to 12 turbine diameters with the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 9 stages etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with the recovery of compression heat from the exhaust heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 13 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 15 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 16 stages of 1 to 12 turbines 4 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 17 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 19 stages of turbine diameters of 1 to 12 turbines using a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 20 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 26 stages, etc., with 1 to 12 turbine diameters doubled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 27 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and a generator and heat pump are provided in 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 29 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 33 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of the turbine blades with compression heat recovery + chilled turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compression heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 39 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 4 to 12 turbine diameters in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 42 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 44 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc. with 4 times the turbine diameter of 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the turbine blades for compression heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the cold turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in two stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 6 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1-12 turbine diameters tripled with 7-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages etc. with 4 times the turbine diameter 4 times by 1 to 12 turbine diameters with the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 9 stages etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with the recovery of compression heat from the exhaust heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 14 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 23 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages of 1 to 12 turbines 4 times in diameter with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 25 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 1 to 12 turbine diameters in 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages of 1 to 12 turbine diameters in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 33 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of the turbine blades with compression heat recovery + chilled turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compression heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in (16A) with 1 to 12 turbine diameters doubled to 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 39 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages of 4 to 12 turbine diameters in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 41 stages and the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages, etc. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 48 stages, etc., with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with double diameters of the turbine turbine horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the turbine blades for compression heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the cold turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in two stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 6 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 7 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 13 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages of 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 3 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 16 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 18 stages, etc., and generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 19 stages for 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 20 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 21 stages or the like for 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 22 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 23 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages of 1 to 12 turbines 4 times in diameter with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 25 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and a generator and heat pump are provided in 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 29 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages, etc. with a turbine diameter of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust heat with compression heat recovery + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 40 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with the recovery of compression heat from the exhaust heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 43 stages, etc., with 3 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which a generator and a heat pump are installed in 44 stages of 1 to 12 turbines 4 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps with 45 times the diameter of 1 to 12 turbines 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 46 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 48 stages, etc., with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with double diameters of the turbine turbine horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 3 to 3 turbine diameters of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 4 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 5 to 5 turbine diameters of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps with 6 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 7 to 3 turbine diameters of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 8 to 12 turbine diameter 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc., with 5 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps with 10 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 12 to 12 turbine diameters 4 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with a turbine diameter of 1 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc. with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc. with 2 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 24 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided in 25 stages, etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 26 stages, etc. with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 35 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbines with a shaft (16A) and 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 3 times 43 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 4 times 44 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps with 45 times the bolt assembly turbine diameter 45 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps with 46 times the bolt assembly turbine diameter of 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with 47 times the bolt assembly turbine diameter in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times with 48 generators and heat pumps, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal shaft (16A) 1 to 12 turbine diameters 5 times 49 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Inverted blade blade horizontal shaft (16A) 1 to 12 turbine diameters doubled to 50 stages etc. A generator and heat pump were provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters tripled to 51 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 52 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 57 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery + full bite turbine blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 60 stages, etc., with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps with 1 to 12 turbine diameters 5 times as large as one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with generators and heat pumps in two stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 3 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 6 stages, etc. with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters tripled by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 14 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 19 stages of turbine diameters of 1 to 12 turbines using a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 20 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter with 23 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages of 1 to 12 turbines 4 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and the generator and heat pump are provided in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines with 1 to 12 turbine diameters tripled to 27 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 32 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 34 stages, etc., and a generator and a heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 35 stages, etc., with a turbine diameter 3 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in (16A) with 1 to 12 turbine diameters doubled to 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 39 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages of 4 to 12 turbine diameters in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 41 stages and the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages, etc. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 44 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are installed in 48 stages of 4 to 12 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are installed in 49 stages, etc., with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 51 stages, etc., with 3 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 52 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 54 stages, etc. with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 57 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery + full bite turbine blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 58 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 59 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 60 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in two stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 6 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 7 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages etc. with 4 times the turbine diameter 4 times by 1 to 12 turbine diameters with the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 9 stages etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with the recovery of compression heat from the exhaust heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 13 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 15 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 16 stages of 1 to 12 turbines 4 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 17 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 19 stages of turbine diameters of 1 to 12 turbines using a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 20 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters triple, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 4 stages of turbine diameters of 1 to 12 turbines in four stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 26 stages, etc., with 1 to 12 turbine diameters doubled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 27 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and a generator and heat pump are provided in 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 29 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 33 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of the turbine blades with compression heat recovery + chilled turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compression heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 39 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 4 to 12 turbine diameters in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 42 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 44 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc. with 4 times the turbine diameter of 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 50 generators and heat pumps are provided in 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 52 stages or the like for 4 to 12 turbine diameters in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 53 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages or the like for 4 to 16 turbine diameters in 16A. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the turbine blades for compression heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the cold turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in two stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 6 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1-12 turbine diameters tripled with 7-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages etc. with 4 times the turbine diameter 4 times by 1 to 12 turbine diameters with the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 9 stages etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with the recovery of compression heat from the exhaust heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 14 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 17 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 18-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 19 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 20 stages, etc., with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 22 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 23 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages of 1 to 12 turbines 4 times in diameter with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 25 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 4 stages of 1 to 12 turbine diameters in 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 30 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages of 1 to 12 turbine diameters in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 33 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of the turbine blades with compression heat recovery + chilled turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compression heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in (16A) with 1 to 12 turbine diameters doubled to 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 39 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages of 4 to 12 turbine diameters in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 41 stages and the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters doubled, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages, etc. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 43 stages, etc., with 3 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages, etc., with 5 times the diameter of 1 to 12 turbines at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages, etc., with 1 to 12 turbine diameters doubled at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 47 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 48 stages, etc., with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 49 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with double diameters of the turbine turbine horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 52 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 54 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 3 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the turbine blades for compression heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the cold turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in two stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled to 6 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 7 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in four stages of 1 to 12 turbine diameters 4 times in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 5 times larger in diameter and provided with generators and heat pumps in 9 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 10 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with 12-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Recovering the heat from the cold turbine exhaust + Compressed heat recovery from the turbine blades (16A), 13 times the diameter of 1-12 turbines 5 times Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + Recovering the heat from the cold turbine exhaust + Compressing the heat from the turbine blades (16A), double the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressed air recovered by heating with geothermal heat, heated heat recovered from geothermal heated air + Compressed heat recovered from cold turbine exhaust + Rotating turbine rotor shaft horizontal axis (16A) 15 times the diameter of 1 to 12 turbines Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compression of heat heated by geothermal heat and heat recovery of geothermal heating air + Compression heat recovery of cold turbine exhaust + Compression heat recovery of biting turbine blades Horizontal axis (16A) 16 times turbine diameter 4 times 16 Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compression of heat heated by geothermal heat to recover heat of compressed geothermal air + Recovery of heat from cold turbine exhaust + Recovery of heat from compressed turbine turbines +17 to 5 times the turbine diameter of 1 to 12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 19 stages of turbine diameters of 1 to 12 turbines using a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 20 stages of 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 23 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 24 stages of 1 to 12 turbines 4 times in diameter with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 25 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbine + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 1st to 12th turbine diameters in 26 stages, etc. on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with a generator and heat pump in 33 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescence engine with generator and heat pump in 34 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 36 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages for 1 to 12 turbine diameters 3 times on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the shaft (16A) with 5 times the diameter of 1-12 turbines and 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with 58 times the bolt assembly turbine diameter 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 3 times 60 stages etc. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines equipped with a generator and heat pump with a bolt assembly turbine diameter four times as large as one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump in 5 stages of bolt assembly turbine diameter in 2 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled in 3 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters tripled to 4 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Inverted blade blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 5 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times 6 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 7 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in multiple stages + electric drive prime + compresses the heating air with geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Rotating turbine blades (16A), 1 to 12 turbine diameters 4 times 13 stages, etc. Generator and heat pump Various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in multiple stages + electric drive prime + compresses the heating air with geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Rotating turbine blades (16A), 1 to 12 turbine diameters 5 times 14 stages, etc. Various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in multiple stages + electric drive prime + compresses the heating air with geothermal heat Compressed heat recovery from geothermal heating air + Compressed heat recovery from cold turbine exhaust + Rotating turbine blades (16A), 1 to 12 turbine diameters doubled to 15 stages etc. Generator and heat pump Various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in multiple stages + electric drive prime + compresses the heating air with geothermal heat Compressed heat recovery of geothermal heated air + Compressed heat recovery of cold turbine exhaust + Rotating turbine blade horizontal shaft (16A) 1 to 12 turbine diameters tripled to 16 stages etc. Generator and heat pump Various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+電気駆動全盛にする+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1 to 26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is provided in multiple stages + electric drive prime + compresses the heating air with geothermal heat Compressed heat recovery from geothermal heated air + Compressed heat recovery from cold turbine exhaust + Rotating turbine blades (16A) with a horizontal axis (16A) of 4 to 12 turbine diameters to 17 stages, generators and heat pumps Various energy storage cycle coalescing engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Elevated turbine drive with a small diameter diameter of the power increase sphere (2E) + 1 to 26 times the cross section (4X) of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + Geothermal heating air is compressed, geothermal heating air is heated and compressed heat recovery + cold turbine exhaust is compressed heat recovery + bite turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times 18 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Elevated turbine drive with a small diameter diameter of the power increase sphere (2E) + 1 to 26 times the cross section (4X) of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + Compressing the air heated by geothermal heat, heating the geothermal heating air, recovering the compressed heat + cooling heat recovery from the cold turbine exhaust + 19 stages of double turbine diameter of 1 to 12 turbines with the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Elevated turbine drive with a small diameter diameter of the power increase sphere (2E) + 1 to 26 times the cross section (4X) of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + cold turbine exhaust is compressed heat recovery + bite turbine blade horizontal axis (16A) 1 to 12 turbine diameters 3 times 20 stages Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Elevated turbine drive with a small diameter diameter of the power increase sphere (2E) + 1 to 26 times the cross section (4X) of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + Compressing the air heated by geothermal heat, heating the geothermal heated air, compressing heat recovery + compressing the heat from the cold turbine exhaust + compressing the heat of the turbine blades, and the bite turbine blades with a horizontal axis (16A) of 21 to 12 times the turbine diameter 4 times Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+出力増大球(2E)を小径として加速タービン駆動する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Elevated turbine drive with a small diameter diameter of the power increase sphere (2E) + 1 to 26 times the cross section (4X) of the core geothermal turbine blade cross section (4X) of the bite liquid metal gravity cooling and heating turbine + Geothermal heating air is compressed by geothermal heating, compressed heat recovery is performed by heating the geothermal heating air + compressed heat recovery is performed by cooling the exhaust from the cold turbine, and the 12-stage turbine diameter is doubled by the horizontal shaft (16A). Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times and 38 generators and heat pumps are provided in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 39 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 40 generators and heat pumps are provided in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 7 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 28 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled with 31 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadruple and a generator and a heat pump are provided in 53 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 56 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages, etc., with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 18 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 19 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 21 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the intake of the turbine blades for compression heat recovery + bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages etc. with 2 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps with 45 times the diameter of 1 to 12 turbines 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 46 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in three stages of 1 to 12 turbine diameters in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 9 stages for 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 10 stages of 1 to 12 turbines 5 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 11 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 1 to 12 turbine diameters tripled to 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages with 5 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages, etc., with 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 33 stages, etc. with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages for 1 to 12 turbine diameters 3 times on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the shaft (16A) with 5 times the diameter of 1-12 turbines and 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 58 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump in 3 stages of bolt assembly turbine diameter in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 4 times 9 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines equipped with generators and heat pumps with 10 times the bolt assembly turbine diameter 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps with 11 times the bolt assembly turbine diameter of 11 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with 12 times the bolt assembly turbine diameter 12 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compresses the geothermal heating air, compresses the heat from the heat, collects the heat from the cold turbine exhaust, collects the heat from the compression turbine + the horizontal axis (16A) of the bite turbine blades 4 times the diameter of 12 turbines to 13 stages, etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressing the geothermal heating air to heat and compressing heat recovery + Compressing heat recovery from the cooling turbine exhaust + Compressed all rotor blade turbine horizontal axis (16A) 5 times the diameter of 1 to 12 turbines to 14 stages etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heating air to compress heat recovery + chilled turbine exhaust compression heat recovery + edging all rotor blades horizontal axis (16A) 1 to 12 turbine diameters doubled to 15 stages, etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compresses the geothermal heating air to recover the compressed heat + Compressed heat recovery from the cold turbine exhaust + Rotating turbine blades (16A) with a horizontal axis (16A) 1 to 12 turbine diameters tripled to 16 stages, etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compresses the geothermal heating air to heat and compresses heat recovery + Compresses heat from the cold turbine exhaust + Compressed all rotor blades Horizontal axis (16A) 1 to 12 turbine diameters 4 times to 17 stages etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 23 stages etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages of turbine diameters of 1 to 12 units in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbines with 5 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times and 38 generators and heat pumps are provided in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 39 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 40 generators and heat pumps are provided in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 7 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 28 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled with 31 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadruple and a generator and a heat pump are provided in 53 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 56 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages, etc., with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 18 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 19 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 21 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the intake of the turbine blades for compression heat recovery + bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages etc. with 2 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps with 45 times the diameter of 1 to 12 turbines 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 46 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in three stages of 1 to 12 turbine diameters in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 9 stages for 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 10 stages of 1 to 12 turbines 5 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 11 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps with 1 to 12 turbine diameters tripled to 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages with 5 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages, etc., with 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 33 stages, etc. with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages etc. with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages for 1 to 12 turbine diameters 3 times on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 41 stages, etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 46 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the shaft (16A) with 5 times the diameter of 1-12 turbines and 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 58 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン3径倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages of bolt assembly turbine diameter 8 and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン4径倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of bolt assembly turbine diameters of 9 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン5径倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of bolt assembly turbine 5 diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン2径倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps installed in 11 stages of bolt assembly turbine double diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン3径倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 times the bolt assembly turbine triple diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameter 4 times 13 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blades (16A) with a horizontal axis (16A) 1 to 12 turbine diameters, 14 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal shaft (16A) 1 to 12 turbine diameters doubled to 15 stages etc. A generator and heat pump were provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters tripled to 16 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for chilled turbine exhaust + Rotating blade blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 17 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 23 stages etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages of turbine diameters of 1 to 12 units in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbines with 5 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 50 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 52 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 54 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc., with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 57 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 13 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 14 stages for 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters twice. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 17 stages with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times and 38 generators and heat pumps are provided in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 39 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 40 generators and heat pumps are provided in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 7 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 28 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled with 31 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines in which 1 to 12 turbine diameters are quadruple and a generator and a heat pump are provided in 53 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 56 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 57 stages, etc., with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 18 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 19 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 21 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy conservation cycle coalescence engines with generators and heat pumps in 1 to 12 turbine diameters 5 times 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 1 to 12 turbine diameters 3 times 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 42 stages etc. with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 to 4 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages etc. with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the shaft (16A) with 5 times the diameter of 1-12 turbines and 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 56 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages, etc., with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 58 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 8 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the 9th stage of 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps with 11 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 3 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engine with generator and heat pump with 18 times the bolt assembly turbine diameter 18 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump in 19 stages etc. with a bolt assembly turbine diameter doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 3 times 20 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 4 times 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 5 times 22 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal shaft (16A) 1 to 12 turbine diameters doubled to 23 stages etc. A generator and heat pump were provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 3 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 25 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Inverted blade blade horizontal axis (16A) 1 to 12 turbines 5 times larger in 26 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal shaft (16A) 1 to 12 turbine diameters doubled to 27 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbines with 5 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and a generator or heat pump is provided in 33 stages or the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 35 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 36 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 37 stages, etc., with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the intake of the turbine blades for compression heat recovery + bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 54 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc., with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 57 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 58 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 59 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are four times larger and the generator and heat pump are provided in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 8 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 9 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 10 to 12 turbine diameters of 5 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 11 generators and heat pumps are provided in 11 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 23 stages etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages of turbine diameters of 1 to 12 units in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages, etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbines with 5 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 32 stages with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 35 generators and heat pumps are provided in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 36 stages, etc., with a turbine diameter three times as large as 1 to 12 in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 48 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters 50 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 52 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 53 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 54 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 55 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages, etc., with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 57 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and heat pump are provided in three stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 4 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled with 7 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 13 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 14 stages for 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters twice. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 17 stages with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 18 stages, etc. with 5 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 27 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in 28 stages, etc., with a turbine diameter 3 times (1-12) in (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 30 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and a generator and a heat pump are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times and 38 generators and heat pumps are provided in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 39 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 40 generators and heat pumps are provided in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 3 to 1 turbine diameter 3 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the chilled turbine exhaust + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 48 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 49 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 50 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 6 stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 7 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages of 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 13 stages of 4 to 12 turbine diameters at 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 15 stages, and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 16 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 17 stages for 4 times the turbine diameter of 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 23 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 25 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A) with compression heat recovery + chilled turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of the heat recovery of the cold turbine + compressed heat recovery turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 28 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 29 stages, etc., with 4 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled with 31 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with generators and heat pumps in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 33 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 34 stages etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages etc. with 4 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 43 stages, etc., with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 45 stages or the like for 4 to 16 turbine diameters at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 47 generators and heat pumps are provided in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 4 to 4 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with 1 to 12 turbine diameters doubled to 51 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 53 stages, etc., with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 54 stages etc. with 5 times the turbine diameter of 1-12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages etc. with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 56 stages, etc. with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 57 stages, etc. with 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 58 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps provided with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages, etc., with 4 to 4 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 6 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 8 stages etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the 9th stage of 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps with 11 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 3 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 15 stages with 1 to 12 turbine diameters doubled on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 4 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 18 stages with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 21 stages, etc. with a turbine diameter 4 times 1 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 25 stages, etc., with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 26 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 3 times 28 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径4倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter 4 times 29 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径5倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines equipped with generators and heat pumps with a bolt assembly turbine diameter 5 times 30 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径2倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescence engine with generator and heat pump with bolt assembly turbine diameter doubled to 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+同径略同形の嵌合ボルト組立タービン径3倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compressing heated air with geothermal heat, heating heated heat with compressed geothermal heat + compressed heat recovery with cold turbine exhaust + fitting with almost the same diameter Various energy storage cycle coalescing engines with generators and heat pumps with 32 times the bolt assembly turbine diameter 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 33 generators and heat pumps are provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 5 times with 34 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters doubled to 35 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters tripled to 36 stages etc. A generator and heat pump were provided Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 4 times 37 stages etc. A generator and heat pump were installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the intake of the turbine blades for compression heat recovery + bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages etc. with 2 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages, etc., with 1 to 12 turbine diameters tripled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps with 45 times the diameter of 1 to 12 turbines 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 46 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 47 stages, etc., with 1 to 12 turbine diameters doubled. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters tripled with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 49 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 50 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters tripled on a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 53 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 55 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 3 times the turbine diameter of 1-12 units at (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 4 times, various energy storage cycle coalescing engines provided with a generator and heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbines 4 times the diameter of the turbine blades (16A), with the recovery of compression heat from the exhaust heat of the cold heat turbine + horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in three stages of 1 to 12 turbine diameters in 8 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 9 stages for 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 10 stages of 1 to 12 turbines 5 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 11 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 12 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 1 to 12 turbine diameters 4 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engine with generator and heat pump in 15 stages etc. with 1 to 12 turbine diameters doubled by horizontal heat axis (16A) of compressed heat recovery + bite full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 17 stages of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat + turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 5 times larger and 18 generators and heat pumps are provided in 18 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 19-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 20 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 22 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 6 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 24 generators and heat pumps are provided in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 10 times various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc. with 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 32 stages of 5 to 12 turbine diameters with a horizontal axis (16A) for recovering cold turbine exhaust with compression heat recovery + full blade blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 33 generators and heat pumps are provided in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 7 times larger in diameter and provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 8 times larger. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters at a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines with the horizontal axis (16A) of the intake of the turbine blades for compression heat recovery + bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 43 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 44 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 45 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with generators and heat pumps in 47 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 48 stages etc. with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled at 49 stages (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters in the horizontal axis (16A) of the turbine blades (16A) for recovering cold turbine exhaust heat and compression. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 1 to 12 turbine diameters 7 times in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 55 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 57 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines having a diameter of 58 times and a generator and heat pump in 58 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 59 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are four times larger and the generator and heat pump are provided in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of 1 to 12 turbine diameters 5 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 3 stages, etc., with 1 to 12 turbine diameters 6 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 4 stages for 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbines with 9 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 7 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 8 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 9 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 10-stage generators and heat pumps are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines 5 times the diameter of the turbine are provided in 12 stages or the like with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 13 stages or the like are provided with a generator or heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 14 stages, etc. with 1 to 12 turbine diameters 7 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with a generator and heat pump in 15 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 17 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 18 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 6 times larger and 23 generators and heat pumps are provided in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 24 stages are provided with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with a generator and heat pump in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 27 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages, etc. with 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 30 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 32 stages of 5 to 12 turbine diameters with a horizontal axis (16A) for recovering cold turbine exhaust with compression heat recovery + full blade blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with generators and heat pumps in 33 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 34 stages etc. with 1 to 12 turbine diameters 7 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 35 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 10 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 37 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 38 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled and 39 generators and heat pumps are provided in 39 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 40 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages, etc., with 6 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 1 to 12 turbine diameters 7 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 9 times the turbine diameter 9 to 12 times in the horizontal axis (16A) of the intake of all the blade blades with compression heat recovery + chilled turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 10 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 48 stages etc. with 1 to 12 turbine diameters 1 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 49 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and a generator and heat pump are provided in 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with generators and heat pumps in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters in the horizontal axis (16A) of the turbine blades (16A) for recovering cold turbine exhaust heat and compression. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 1 to 12 turbine diameters 7 times in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 55 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 57 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 58 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 59 stages and the like in (16A) with 1 to 12 turbine diameters doubled to 59 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 60 stages with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in two stages of turbine diameters of 1 to 12 turbines in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in three stages with 6 to 6 turbine diameters in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 4 stages are provided with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 5 stages, etc., with 1 to 12 turbine diameters 8 times larger. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 10 times larger in diameter and provided with a generator and heat pump in 7 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages, etc. with 1 to 12 turbine diameters at the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters doubled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 10 stages of turbine diameters of 1 to 12 turbines using a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 12 stages of 1 to 12 turbines with 5 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 13 stages for 6 to 6 turbine diameters. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 14 stages are provided with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in diameter and 16 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 18 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 20 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbines with 5 times the diameter of the turbine, with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 6 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 23 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 7 times larger and 24 generators and heat pumps are provided in 24 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 25 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 10 times various energy storage cycle coalescing engines provided with generators and heat pumps in 27 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 28 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalesced engines in which 1 to 12 turbine diameters are doubled with 29 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 30 times the diameter of 1 to 12 turbines in 30 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 32 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 33 stages, etc., with 6 to 6 turbine diameters in the horizontal axis (16A) of the turbine blades (16A) for recovering cold turbine exhaust heat and compression. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters 7 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine turbine horizontal axis (16A) for recovering the heat of the cold turbine + the biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 36 stages of 1 to 12 turbines with 9 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 37 stages, etc., with 1 to 12 turbine diameters 10 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines with a diameter of 38 times and generators and heat pumps in 38 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbine diameters doubled to 39 stages and so on with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and 40 generators and heat pumps are provided in 40 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 42 stages etc. with 5 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 43 stages, etc., with 6 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages, etc. with 1 to 12 turbine diameters 7 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 9 times the turbine diameter 9 to 12 times in the horizontal axis (16A) of the intake of all the blade blades with compression heat recovery + chilled turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 10 times in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 48 stages etc. with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine Various energy storage cycle coalescing engines provided with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled at 49 stages (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 6 times various energy storage cycle coalescing engines provided with a generator and heat pump in 53 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 7 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 54 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 55 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 10 times are provided with a generator and a heat pump in 57 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compression of heat heated by geothermal heat to heat compressed heat of geothermal heat + Recovery of cold turbine exhaust for compression heat recovery + Combined use with various gravity turbines + Inverted full blade turbine horizontal axis (16A) 1 Various energy storage cycle coalescing engines with 12 turbine diameters, 58 stages, etc., equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressed air heated by geothermal heat and heated compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + Used in combination with heat-driven various gravity turbines + 1 in the full bite turbine blade horizontal axis (16A) Various energy conservation cycle coalescing engines with 12 turbine diameters doubled to 59 stages etc. with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressed air heated by geothermal heat and heated compressed heat recovered from geothermal heated air + Compressed heat recovered from chilled turbine exhaust + Used in combination with heat-driven various gravity turbines + 1 in the full bite turbine blade horizontal axis (16A) Various energy storage cycle coalescing engines with 12 turbines 3 times the diameter and 60 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compressed air recovered by heating with geothermal heat, heated heat recovered from geothermal heated air + Compressed heat recovered from cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 times the turbine diameter 4 times Various energy storage cycle coalescing engines with generators and heat pumps in stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の地熱発電でCO20発電にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) is converted to CO20 power generation by geothermal power generation 1 to 26 times + liquid sphere and specific material impact reducing material are raised and stored with increasing ball rising device (2F) + Compression of heat heated by geothermal heat to heat compressed heat of geothermal heat + Recovery of cold turbine exhaust for compression heat recovery + Combined use with various gravity turbines + Inverted full blade turbine horizontal axis (16A) 1 Various energy storage cycle coalescing engines with 12 turbines 5 times larger in diameter and two generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6x in 3 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 7x in 4 stages with generators and heat pumps installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters 8 times 5 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbines with 9 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a rotary shaft (16A) equipped with a generator and heat pump in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 8 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を69段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is compressed heat recovery + Exhaust air is dissolved in deep ocean water etc. The bite turbine blade horizontal axis (16A) provides 1 to 12 turbine diameters doubled in 69 stages to provide 1000 times the amount of power generation Various energy conservation cycle coalescing engines aimed at. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 10 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) with 12 stages of generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine with a generator and heat pump in 13 stages, etc. with 6 to 6 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 14 stages, etc. with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 16 stages with 1 to 12 turbine diameters 9 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 1 to 12 turbine diameters in 18 stages on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 19 stages with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump with 20 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 21 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 22 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 23 stages, etc. with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 24 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 26 stages, etc., with 9 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 27 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 31 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 32 stages of 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 6 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with a turbine diameter of 1 to 12 turbines 8 times the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 36 stages with a turbine diameter of 1 to 12 turbines 9 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages etc. with a turbine diameter of 10 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 39 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 40 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 41 stages with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 42 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を105段に設けた食込液体金属重力冷熱タービン中核地熱各種タービン多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Electrified full rotor blade horizontal axis (16A) 1 to 12 turbine diameters 8 times larger than 105 stages of edging liquid metal gravity cooling / heating turbine Core geothermal various turbine multi stage etc. were equipped with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine rotating shaft horizontal axis (16A) of 10 to 12 turbine diameters 10 times 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 48 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 49 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 50 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 52 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescence engine with generator and heat pump in 53 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 7 to 12 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times as large as 56 stages and are provided with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 58 stages, etc. on the horizontal shaft (16A) of the biting all blade blades. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1-12 turbine diameter doubled to 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 60 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 5 times the diameter of turbine blades with horizontal axis (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages of 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 10 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade shaft (16A) and 13-stage generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) equipped with a generator and heat pump in 14 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters 8 times in 15 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor blade turbine (16A) equipped with a generator and heat pump in 17 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on a horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 21 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages with 5 times the diameter of 1-12 turbines on the horizontal shaft (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A), and generators and heat pumps are installed in 23 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 25 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 9 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 10-fold turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 8 times larger on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc., with 10 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 38 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 39 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 48 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 49 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 50 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 52 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in two stages of 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6x in 3 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 7x in 4 stages with generators and heat pumps installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters 8 times 5 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbines with 9 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a rotary shaft (16A) equipped with a generator and heat pump in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters tripled on a horizontal axis (16A) of a biting full rotor blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 11 stages of 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade shaft (16A) and 13-stage generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) equipped with a generator and heat pump in 14 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters 8 times in 15 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor blade turbine (16A) with 17 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages, etc., with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters are set to 28 stages, etc. on the horizontal shaft (16A) of the edging all rotor blades. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 30 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 32 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 33 stages, etc., with 6 stages of turbine diameter 6 to 12 on the horizontal axis (16A) of the biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the bite turbine blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 38 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 39 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine rotating shaft horizontal axis (16A) of 10 to 12 turbine diameters 10 times 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6 times 53 stages with generator and heat pump installed on the edging all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times 54 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 55 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a twelve-thick turbine blade and a generator and heat pump in 57 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are four times larger and the generator and heat pump are provided in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6x in 3 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 7x in 4 stages with generators and heat pumps installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters 8 times 5 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbines with 9 times the diameter of the turbine by the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a rotary shaft (16A) equipped with a generator and heat pump in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages of 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 10 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 13 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段に設けて1000倍発電量を狙う各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) To save the liquid metal and the material that reduces the impact of specific significant substances + compress the air heated by geothermal heat, heat the geothermal heated air + recover the compressed heat recovery + compress the heat from the cold turbine exhaust + recover the exhaust air to deep ocean water, etc. Various energy storage cycle coalescing engines aiming at 1000 times power generation by providing 1 to 12 turbine diameters 7 times in 14 stages on the melting bite turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 15 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1x on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 19 stages, etc. with a turbine blade horizontal axis (16A) of 1 to 12 turbine diameters doubled to 19 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 1 to 12 turbines 4 times the diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 22 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages, etc. with 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages, etc., with 1 to 12 turbines 8 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbines 9 times larger in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 27 stages, etc., with 1 to 12 turbines 10 times the diameter of all rotor blades horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 31 stages etc. with 4 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 32 stages of 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 33 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of a biting full rotor blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 34 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 35 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 36 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine with generator and heat pump in 37 stages, etc., with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 39 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 40 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 41 stages with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 42 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 43 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 46 stages, etc. with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 47 stages, etc., with a twelve-twenty turbine blade horizontal axis (16A) and 10-12 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in the shaft (16A) with 1 to 12 turbine diameters tripled to 50 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps installed in 51 stages, etc., with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages etc. with 5 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 53 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 54 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 56 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 58 stages, etc. with 1 to 12 turbine diameters multiplied by the horizontal axis (16A) of the biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 60 stages with 1 to 12 turbine diameters tripled by horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 1 stage with 1 to 12 turbine diameters 4 times the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in two stages with 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of the biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heated air to heat and compress heat recovery + Compressed heat recovery from cold turbine exhaust + Combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters with a full bite turbine blade horizontal axis (16A) 6 Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heating air to compress heat recovery + Compressed heat recovery from cold turbine exhaust + Combined use with heat-driven various gravity turbines + 1 to 12 turbine diameters 7 on the horizontal shaft (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heated air to heat compressed heat recovery + Compressed heat recovery from cold turbine exhaust + Combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters with a full-rotating blade turbine horizontal axis (16A) 8 Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heated air to recover compressed heat + Refrigeration turbine exhaust heat + Compressed all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 9 times 6 stages, etc. Various energy storage cycle coalescence engine with heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+揚水装置(1J)で落差を可能な限り上昇+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Raise head as much as possible with pumping device (1J) + Increase and store liquid metal and specific material impact reducing material with increase ball lift device (2F) + Air heated by geothermal heat Compressed geothermal heated air to heat compressed heat recovery + Compressed heat recovery from cold turbine exhaust + Combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters with a full-rotating blade turbine horizontal axis (16A) 10 Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 8 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 9 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 10 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) with 12 stages of generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages of 6 to 12 turbine diameters with a full horizontal blade (16A) of biting blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in diameter and 16 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 18 stages, etc. on the horizontal shaft (16A) of the biting blades, and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 19 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 20 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 22 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages, etc., with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   With a structure with a geothermal power generation turbine with the same diameter and the same shape and the same length as the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cooling and heating turbine + storage battery drive prime Ascending and storing liquid metal and specific material impact reducing materials + Compressing air heated by geothermal heat to heat and compressing geothermal heated air + Recovering heat from cold turbine exhaust + Recovering compressed heat from heat + Combining with various gravity turbines + Food Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages with 1 to 12 turbine diameters 6 times on the horizontal shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   With a structure with a geothermal power generation turbine with the same diameter and the same shape and the same length as the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cooling and heating turbine + storage battery drive prime Ascending and storing liquid metal and specific material impact reduction materials + Compressing air heated by geothermal heat to recover compressed heat from geothermal heating air + Recovering heat from cold turbine exhaust + Recovering compressed heat from heat + Combined use with various gravity turbines + Food Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages with 1 to 12 turbine diameters 7 times on the horizontal shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   With a structure with a geothermal power generation turbine with the same diameter and the same shape and the same length as the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cooling and heating turbine + storage battery drive prime Ascending and storing liquid metal and specific material impact reduction materials + Compressing air heated by geothermal heat to recover compressed heat from geothermal heating air + Recovering heat from cold turbine exhaust + Recovering compressed heat from heat + Combined use with various gravity turbines + Food Various energy storage cycle coalescing engines equipped with generators and heat pumps in 35 stages with 1 to 12 turbine diameters 8 times on the horizontal shaft (16A) of the embedded full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   With a structure with a geothermal power generation turbine with the same diameter and the same shape and the same length as the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cooling and heating turbine + storage battery drive prime Ascending and storing liquid metal and specific material impact reduction material + compressing geothermal heating air and compressing geothermal heating air compression heat recovery + compressing heat recovery from cold turbine exhaust + horizontal axis of biting all blade turbine (16A ) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger and 36 generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   With a structure with a geothermal power generation turbine with the same diameter and the same shape and the same length as the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cooling and heating turbine + storage battery drive prime Ascending and storing liquid metal and specific material impact reducing materials + Compressing air heated by geothermal heat to heat and compressing geothermal heated air + Recovering heat from cold turbine exhaust + Recovering compressed heat from heat + Combining with various gravity turbines + Food Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages with 1 to 12 turbine diameters 10 times on the horizontal shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6x43 on the horizontal shaft (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 44 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A), 8 to 12 turbine diameters are installed in 45 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 9 times the turbine diameter 9 to 12 times in the horizontal axis (16A) of the intake of all the blade blades with compression heat recovery + chilled turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) that has a twelve blade diameter and a generator and heat pump in 47 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 58 stages, etc. on the horizontal shaft (16A) of the biting all blade blades. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1-12 turbine diameter doubled to 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 60 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 5 times the diameter of turbine blades with horizontal axis (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 6 to 6 turbine diameters of 6 to 12 turbine blades on a horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages for 1 to 12 turbine diameters 9 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 8 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power generation turbine structure + storage battery drive, electric drive, and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 9 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 10 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) with 12 stages of generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 13 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 7 to 12 turbine diameters in the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 15 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A), and generators and heat pumps are installed in 23 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 25 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 9 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 10-fold turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with generators and heat pumps in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages of 1 to 12 turbines 5 times the diameter of a turbine blade full axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade (16A), and generators and heat pumps are installed in 33 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径2〜12倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Drives turbine diameter 2 to 12 times the turbine diameter of a rotary blade turbine driven by bite + Horizontal axis of bite rotary blade turbine equipped with geothermal air heater (2z) inserted into borehole drilling hole ( In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 7 times larger in diameter and provided with generators and heat pumps in 34 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 8 to 12 turbine diameters installed in 35 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 36 stages of 1 to 12 turbines with 9 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a turbine shaft of 10 to 10 times installed in 37 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38多段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 38 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 40 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine rotating shaft horizontal axis (16A) of 10 to 12 turbine diameters 10 times 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 48 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 49 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 50 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 52 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescence engine with generator and heat pump in 53 stages etc. with 6 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 7 to 12 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times as large as 56 stages and are provided with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 58 stages, etc. on the horizontal shaft (16A) of the biting all blade blades. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1-12 turbine diameter doubled to 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 60 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 5 times the diameter of turbine blades with horizontal axis (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages of 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 10 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 11 to 12 turbine diameters 4 times larger than 16 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade shaft (16A) and 13-stage generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) equipped with a generator and heat pump in 14 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters 8 times in 15 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor blade turbine (16A) equipped with a generator and heat pump in 17 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on a horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 21 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages with 5 times the diameter of 1-12 turbines on the horizontal shaft (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A), and generators and heat pumps are installed in 23 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 25 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 9 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 10-fold turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages, etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 8 times larger on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc., with 10 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 38 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 39 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込液体金属重力冷熱タービン中核地熱各種タービン44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescence engines with generators and heat pumps installed in 44 stages of various core geothermal turbines, etc. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 45 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc. with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 48 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with a bite, and a generator and heat pump are installed in 49 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 50 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 4 times the diameter of turbine blades (16A) equipped with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and a generator or heat pump is provided in one stage or the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A), and a generator and heat pump are installed in three stages. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 6 times 4 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with a bite, and a generator and heat pump are installed in 5 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a 9-fold turbine diameter in the horizontal axis (16A) and a generator and heat pump are installed in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps with 9 stages of 1 to 12 turbine diameters at the horizontal axis (16A) of the full blade blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 13-stage generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 6 times 14 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters are set to 15 stages on a horizontal shaft (16A), and a generator and heat pump are installed. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 17 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 20 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled, and a generator and heat pump are provided in 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages of turbine blades 9 to 9 times in diameter with a full bite turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of all rotor blade turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters 1x on all rotor blade horizontal axes (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages, etc., with 1 to 12 turbine diameters doubled on all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps with 31 to 3 turbine diameters of 3 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 4 turbine diameters 4 to 12 on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 times the turbine diameter of 1-12 turbines on the horizontal axis (16A) of all rotor blade turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbine diameters 8 times 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 38 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump with 39 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 40 stages of 1 to 12 turbine diameters doubled on a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 41 stages, etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 42 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 43 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 44 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 46 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 47 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters multiplied by the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 50 stages, etc. with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 51 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 52 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 54 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 55 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 56 stages of 1-12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 57 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 1 to 12 turbine diameters 1x on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc. with 1 to 12 turbine diameters doubled on shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps with 1 to 12 turbine diameters 3 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in two stages, etc., with 1 to 12 turbine diameters 4 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 3 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 5 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 10 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades that dissolve in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 12 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with heat-driven various gravity turbines + 13 stages of 1 to 12 turbine diameters 5 times in the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat-driven gravity turbines + 14 stages of 6 to 12 turbine diameters on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Used in combination with various heat-driven gravity turbines + 15 stages of 1 to 12 turbine diameters 7 times on the horizontal shaft (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 8 times generators and heat pumps provided in 16 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with heat-driven various gravity turbines + 17 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 10 times in 18 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are installed in 19 stages etc. A generator and heat pump are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters doubled to 20 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all rotor blades 4 times larger, 22 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps installed in 24 stages of 6 to 12 turbine diameters with a horizontal axis (16A) of a full bite turbine blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 8 times larger and 26 generators and heat pumps are provided in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) with 28 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 29 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with double shaft diameters (16A) and a generator and heat pump in 30 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 32 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 40 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 41 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 43 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 44 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 45 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages with 1 to 12 turbine diameters 8 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a 9-fold turbine horizontal axis (16A) with 47-stage generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc. with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 51 stages, etc., with 3 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 53 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters set to 54 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters set to 55 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 57 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled and a generator or heat pump is provided in one stage or the like. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 5 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with 6-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade, and generators and heat pumps are installed in 8 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 9 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 10 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a twelve-stage turbine blade and a heat pump in 12 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 13 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 8 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 17 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 10 times in 18 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are installed in 19 stages etc. A generator and heat pump are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters doubled to 20 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all rotor blades 4 times larger, 22 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages of turbine blades 9 to 9 times in diameter with a full bite turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages of 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 30 stages of double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 32 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 33 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+質量駆動タービン6駆動水と排気で熱量駆動タービン排気を冷却+食込液体金属重力冷熱タービン中核地熱各種タービン34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is compressed heat recovery + Mass driven turbine 6 Drive water and exhaust cools heat-driven turbine exhaust + Intrusion liquid metal gravity chilled turbine Core geothermal various turbines 34 stage etc. equipped with generator and heat pump Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 35 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 8 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 9 times the diameter of turbine blades (16A) equipped with generators and heat pumps in 37 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 38 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps installed in 40 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 41 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 43 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 44 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 45 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages with 1 to 12 turbine diameters 8 times in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a 9-fold turbine horizontal axis (16A) with 47-stage generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps, etc. with 50 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 54 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging blade blade and a heat pump in 58 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are installed in 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 60 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with a generator and heat pump, etc., with 1 to 12 turbine diameters tripled in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) that has a 4x diameter turbine generator and heat pump in two stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 5 times the diameter of 1-12 turbines in the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the full blade rotor. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 8 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescence engine with generator and heat pump in 7 stages with 1 to 12 turbine diameter 9 times on horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade, and generators and heat pumps are installed in 8 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 9 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 10 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 11 stages of turbine diameters of 1 to 12 turbines with a horizontal axis (16A) for recovering cold turbine exhaust and compressing heat recovery + horizontal bite (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a twelve-stage turbine blade and a heat pump in 12 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 15 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 20 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled, and a generator and heat pump are provided in 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 23 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal shaft (16A) with 1 to 12 turbine diameters 7 stages, generators and heat pumps in 25 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps for 26 stages of 1 to 12 turbine diameters with a horizontal axis (16A) for recovering cold turbine exhaust with compression heat recovery + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 9 times the turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 28 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps installed in 29 stages, etc., with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting all blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 30 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 3 stages of 1 to 12 turbine diameters in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 32 stages, etc. with 4 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 33 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters 6 times 34 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 35 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 36 stages, etc. with 8 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 9 times the diameter of turbine blades (16A) equipped with generators and heat pumps in 37 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 40 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 41 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 48 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with a bite, and a generator and heat pump are installed in 49 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 50 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages, etc., with 1 to 12 turbine diameters tripled by a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 4 times the diameter of turbine blades (16A) equipped with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal shaft (16A) of the biting full rotor blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which generators and heat pumps are provided in 56 stages, etc. with 1 to 12 turbine diameters 8 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging blade blade and a heat pump in 58 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are installed in 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 60 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with a generator and heat pump, etc., with 1 to 12 turbine diameters tripled in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) that has a 4x diameter turbine generator and heat pump in two stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 5 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy conservation cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and provided with 6-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 10 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 13-stage generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 6 times 14 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters are set to 15 stages on a horizontal shaft (16A), and a generator and heat pump are installed. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 17 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 18 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 21 stages with a generator and a heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 22 stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 23 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+質量駆動タービン7駆動水と排気で熱量駆動タービン排気を冷却+食込液体金属重力冷熱タービン中核地熱各種タービン25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is compressed heat recovery + Mass-driven turbine 7 Drive water and exhaust cools heat-driven turbine exhaust + Intrusion liquid metal gravity refrigeration turbine Core geothermal Various turbines are equipped with generators and heat pumps in 25 stages Cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescence engines with generators and heat pumps for 26 stages of 1 to 12 turbine diameters with a horizontal axis (16A) for recovering cold turbine exhaust with compression heat recovery + full bite turbine blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 9 times the turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages of 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 30 stages of double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 31 stages and so on with a generator and heat pump. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 32 stages of 4 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages etc. with a turbine blade horizontal axis (16A) of 10 to 12 turbine diameters 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 39 stages, etc. with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of all rotor blade turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages, etc., with 1 to 12 turbine diameters doubled on all moving blade turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescence engines with generators and heat pumps in 41 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc., with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blade turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 44 stages of 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy conservation cycle coalescing engines with generators and heat pumps in 45 stages, etc., with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 46 stages, etc. with 1 to 12 turbine diameters 8 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 47 stages, etc., with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 48 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 49 stages, etc., with 1 to 12 turbine diameters multiplied by the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 50 stages, etc. with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 51 stages, etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 52 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 53 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 54 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 55 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 56 stages of 1-12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 57 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generator and heat pump in 60 stages, etc. with 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in one stage, etc., with 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in two stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 3 stages, etc. with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 5 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 7 stages, etc., with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages with 1 to 12 turbine diameters 10 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 9 stages, etc., with 1 to 12 turbine diameters 1 to 9 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 11 stages, etc. with 3 times the diameter of 1-12 turbines on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages, etc. with 12 to 4 turbine diameters of 4 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 13 stages, etc., with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 14 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 15 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 17 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades that dissolve in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 19 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps with 20 stages of double turbine diameters of 1 to 12 turbines with a horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 3 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 22 stages of 1 to 12 turbine diameters 4 times with horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery from heated air + Compressed heat recovery from cold turbine exhaust + Combined use with various heat energy driven gravity turbines + 23 stages of 5 times the diameter of 1 to 12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Used in combination with various heat energy driven gravity turbines + 24 stages of 1-12 turbine diameters 6 times with horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 7 times 25 stages with horizontal blade (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Rotating turbine blade horizontal axis (16A) 1 to 12 turbine diameters 8 times with 26 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat energy driven gravity turbines + 27 stages of 1 to 12 turbines with 9 times the turbine diameter on the horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) with 28 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 29 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with double shaft diameters (16A) and a generator and heat pump in 30 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 32 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 to 6 turbine diameters in the horizontal axis (16A) of the full blade blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 35 stages etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 8 times larger in diameter and are equipped with a generator and heat pump in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 37 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade, and a generator and heat pump are installed in 38 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 39 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc., with 3 times the diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 53 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters set to 54 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters set to 55 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 57 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engine with generator and heat pump in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1 times on the horizontal shaft (16A) of the biting full rotor blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled with a generator and heat pump in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A), and a generator and heat pump are installed in three stages. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A), 1 to 12 turbine diameters 6 times 4 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with a bite, and a generator and heat pump are installed in 5 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a 9-fold turbine diameter in the horizontal axis (16A) and a generator and heat pump are installed in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages, etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 10 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 11 stages with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 12 stages of 4 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 6 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 15 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 10 times in 18 stages with generator and heat pump installed on the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters are installed in 19 stages etc. A generator and heat pump are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal shaft (16A) with 1 to 12 turbine diameters doubled to 20 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all rotor blades 4 times larger, 22 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 23 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps installed in 24 stages of 6 to 12 turbine diameters with a horizontal axis (16A) of a full bite turbine blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are 8 times larger and 26 generators and heat pumps are provided in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (16A) with 28 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 29 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with double shaft diameters (16A) and a generator and heat pump in 30 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 3 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + edging all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 32 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 33 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc. with 7 to 7 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 37 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 39 stages, etc. with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 40 stages of double turbine diameters of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are tripled in diameter and provided with a generator and heat pump in 41 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 43 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 44 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 45 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを46段に設けて高温水を垂直下方に加速する構造や方法+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼弾み車タービンのタービン径9倍を駆動+地熱空気加熱器(2z)をボーリングマシン掘削穴に挿入具備する各種エネルギ保存サイクル合体機関。   Structure and method for accumulating liquid metal gravity cold and hot turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter and approximately the same shape and length of geothermal power generation turbine to accelerate hot water vertically downward + storage battery Drive and electric drive and use of thermal energy + Collect geothermal heat with a geothermal air heater (2z) + Increase and store liquid metal and specific material impact-reducing material with an increasing ball rising device (2F) + Air heated by geothermal heat Compresses the geothermal heating air and compresses heat recovery + Compressed heat recovery from the cooling turbine exhaust + Drives the turbine diameter 9 times the blade size of the full blade impeller turbine + inserts the geothermal air heater (2z) into the drilling hole Various energy storage cycle coalescing engines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) that has a twelve blade diameter and a generator and heat pump in 47 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal shaft (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 49 stages etc. with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of a biting full rotor blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages, etc., with 1 to 12 turbine diameters tripled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with generators and heat pumps in 51 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6 times 53 stages with generator and heat pump installed on the edging all blade turbine horizontal axis (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbine diameters 7 times 54 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 55 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a twelve-thick turbine blade and a generator and heat pump in 57 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + A combined energy storage cycle engine with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters doubled by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 60 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which a generator and a heat pump are provided in one stage for 1 to 12 turbine diameters 4 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in two stages of 1 to 12 turbine diameters 5 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 3 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps with 6 to 12 turbine diameters of 9 to 12 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 7 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 8 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 9 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 10 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) with 12 stages of generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 13 stages of 6 to 12 turbine diameters with a full horizontal blade (16A) of biting blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy conservation cycle coalescing engines with generators and heat pumps in 15 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines with 1 to 12 turbines 9 times larger in diameter and 16 generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 18 stages, etc. on the horizontal shaft (16A) of the biting blades, and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 19 stages and generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 20 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 21 stages, etc., with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with a generator and heat pump in 22 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages, etc., with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages and so on. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 27 stages, etc. with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are quadrupled and generators and heat pumps are provided in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade (16A), and generators and heat pumps are installed in 33 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a swivel rotor blade and a generator and heat pump in 34 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 8 to 12 turbine diameters installed in 35 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 36 stages of 1 to 12 turbines with 9 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a turbine shaft of 10 to 10 times installed in 37 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting all rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with 1 to 12 turbine diameters doubled on a horizontal axis (16A) of a biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 40 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescence engines provided with generators and heat pumps in 41 stages, etc., with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages etc. with 5 times the turbine diameter of 1 to 12 turbines at the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 6x43 on the horizontal shaft (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 44 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A), 8 to 12 turbine diameters are installed in 45 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 46 stages, etc. with 9 times the turbine diameter 9 to 12 times in the horizontal axis (16A) of the intake of all the blade blades with compression heat recovery + chilled turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) that has a twelve blade diameter and a generator and heat pump in 47 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters doubled on horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 50 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 51 stages, etc. with 4 times the diameter of 1 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat energy driven gravity turbines + 1 to 12 turbine diameters are set to 58 stages, etc. on the horizontal shaft (16A) of the biting all blade blades. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1-12 turbine diameter doubled to 59 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 60 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in the first stage of 1 to 12 turbines with 4 times the diameter of the turbine, with a horizontal axis (16A) for recovering the heat of the cold turbines + compressed heat recovery + horizontal blade (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 5 times the diameter of turbine blades with horizontal axis (16A), and generators and heat pumps are installed Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 3 stages, etc., with 6 to 6 turbine diameters of 6 to 12 turbine blades on a horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 4 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 6 stages for 1 to 12 turbine diameters 9 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 8 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 9 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters tripled to 10 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 11 stages, etc. with 4 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with a horizontal axis (16A) with 12 stages of generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 13 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 7 to 12 turbine diameters in the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps with 15 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and provided with a generator and heat pump in 16 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 18 stages etc. with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided in 21 stages, etc. with a turbine diameter 4 times 1 to 12 units. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade horizontal axis (16A), and generators and heat pumps are installed in 23 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 7 times 24 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8 to 12 times turbine diameter is installed in 25 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 26 stages, etc. with 9 times the turbine diameter of 1 to 12 turbines in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 10-fold turbine diameter on the horizontal shaft (16A) and a generator and heat pump in 27 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 29 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps with 30 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 4 times larger in diameter and provided with generators and heat pumps in 31 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 32 stages of 1 to 12 turbines 5 times the diameter of a turbine blade full axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade (16A), and generators and heat pumps are installed in 33 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a swivel rotor blade and a generator and heat pump in 34 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 8 to 12 turbine diameters installed in 35 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 36 stages of 1 to 12 turbines with 9 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + bite full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a turbine shaft of 10 to 10 times installed in 37 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 38 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 39 stages, etc., with double turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 40 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are provided with 41 to 4 turbine diameters of 4 to 12 turbines. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 42 stages, etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 9 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages, etc., with a turbine rotating shaft horizontal axis (16A) of 10 to 12 turbine diameters 10 times 10 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 48 stages, etc., with 1 to 12 turbine diameters 1x on all rotor blade horizontal axes (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 12 turbine diameters 12 times on all rotor blades horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages, etc., with 1 to 12 turbine diameters doubled by 50 blades on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps installed in 51 stages, etc., with 3 to 1 turbine diameter 3 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 53 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 6 to 6 turbine diameters of all turbine blades horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are saved and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat recovery + Cold turbine exhaust is compressed and heat recovery + Heat-driven driven gravity turbines are combined + bite Various energy storage cycle coalescing engines with generators and heat pumps installed in 55 stages, etc. with 1 to 12 turbine diameters 7 times on all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Ascending and storing metal and specific material impact reduction material + Compressing air heated by geothermal heat and compressing geothermal heating air + Compressed heat recovery for cold turbine exhaust + Compressed all rotor blade horizontal axis (16A) Various energy storage cycle coalescing engines with generators and heat pumps in 1 to 12 turbine diameters 8 times 56 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Encroaching liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter, approximately the same shape and the same length of geothermal power turbine. Metal and specific material impact-reducing materials are stored up and stored + Geothermal heating air is compressed and geothermal heating air is heated and compressed heat is recovered + Cold turbine exhaust is compressed and heat is recovered + Calorie-driven various gravity turbines are used + bite Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with a turbine blade horizontal axis (16A) of 9 to 12 turbine diameters 9 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 58 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 59 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 60 stages of 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with a generator and heat pump in the first stage of 1 to 12 turbine diameters twice on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in two stages of 1 to 12 turbine diameters 3 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 3 stages with 1 to 12 turbines 4 times the diameter of the turbine blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 4 stages, etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 5 stages with 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 6 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 7 stages with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 8 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 9 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 10 stages of 1 to 12 turbine diameters with horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 11 stages with 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps with 12 stages of 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 13 stages, etc. with 13 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 14 stages with 1 to 12 turbine diameters 4 times larger on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 15 stages with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 16 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air with compressed heat recovery + compressed heat recovery with cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 17 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages of 1 to 12 turbine diameters 8 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy conservation cycle coalescing engines with generators and heat pumps in 19 stages with a turbine diameter 9 times 1 to 12 on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages with 1 to 12 turbine diameters 10 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 21 stages, etc., with 1 to 12 turbine diameters 1x on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) Save and store liquid metal and specific material impact reduction materials + Compress air heated by geothermal heat to heat compressed heat recovery + Compressed heat recovery for cold turbine exhaust + Compressed all blade turbine horizontal Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages with 1 to 12 turbine diameters 12 times on the shaft (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump in 23 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 24 stages, etc., with 3 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with a generator and heat pump with 25 stages of 4 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 26 stages etc. with 5 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material for reducing impact of specific critical substances + compressing heated air with geothermal heat, heating heated geothermal air compressed heat recovery + compressing heat recovery from cold turbine exhaust + combined use with various gravity-driven gravity turbines + Energy-saving cycle coalescing engine equipped with generators and heat pumps in 27 stages, etc., having a turbine diameter 6 times as large as 1 to 12 on the horizontal axis (16A) of the bite. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 28 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 29 stages with 1 to 12 turbine diameters 8 times larger on the horizontal axis (16A) of the biting full rotor blade that dissolves in the turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 30 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines with generators and heat pumps installed in 31 stages, etc. with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動各種船舶類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+排気空気を海洋深層水等に溶解する食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery driven various ship prime 2F) to save and store liquid metal and material with reduced impact on specific substances + compress air heated by geothermal heat and compress heat recovered from geothermal heat + compress heat recovery from cold turbine exhaust + exhaust air from deep ocean water, etc. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 32 stages with 1 to 12 turbine diameters 1 times on the horizontal axis (16A) of biting all rotor blades dissolved in 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with heat-driven various gravity turbines + 13-stage turbine diameter 12 times 13 stages with full bite turbine blades (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat-driven gravity turbines + 34 stages of double diameter of 1 to 12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat-driven gravity turbines + 35 stages of 1 to 12 turbine diameters 3 times with horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Inverted blade blade horizontal axis (16A) 4 to 12 turbine diameters are provided in 36 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置で落差増大+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Gather with geothermal air heater (2z) + Increase head with increase sphere lift device + Increase sphere lift device (2F) ascend and store liquid metal and specific material impact reduction material + Geothermal heat compresses heating air with geothermal heat Compressed heat recovery for heated air + Compressed heat recovery for cold turbine exhaust + Combined use with various heat-driven gravity turbines + 37 stages of 5 times the diameter of 1-12 turbines with horizontal axis (16A) Various energy storage cycle coalescing engines equipped with generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines 6 times the diameter of the turbine blade shaft (16A), and generators and heat pumps are installed in 38 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 1 to 12 turbine diameters set to 39 stages with generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 8-12 times turbine diameter is installed in 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc. with 9 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of double turbine diameters of 1 to 12 turbines on the horizontal shaft (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are tripled to 46 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages of 1 to 12 turbine diameters 4 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a turbine shaft (16A) with 48 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with heat-driven various gravity turbines + edging all rotor blade turbine horizontal axis (16A) with 1 to 12 turbine diameters 6 times 49 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravitational turbines + 1 to 12 turbines with a horizontal axis (16A) with a swivel turbine blade and a generator and heat pump in 50 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 51 stages of 1 to 12 turbines with 8 times the diameter of the turbine with a horizontal axis (16A) of compressed heat recovery + biting full rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a twelve-wheeled turbine blade and a generator and heat pump in 52 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 53 stages, etc., with 10 to 10 turbine diameters in the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 54 stages, etc., with 1 to 12 turbine diameters multiplied by horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 55 stages, etc. with 12 times the diameter of 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 56 stages, etc., and a generator and heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 57 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 58 stages, etc., with 4 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages etc. with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 6 to 6 turbine diameters on the horizontal axis (16A) of biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which generators and heat pumps are installed in 1 stage for 1 to 12 turbine diameters 7 times. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging all-rotor turbine (9A), 3 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade, and a generator and heat pump are installed in four stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with a bite, and a generator and heat pump are installed in 5 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbines with 12 times the diameter of the turbines with a horizontal axis (16A) for recovering cold turbine exhaust heat and biting all rotor blades (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters are doubled with a horizontal shaft (16A), and a generator and heat pump are installed in 7 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 8 stages, etc. with 3 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages etc. with 4 times the diameter of 1-12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages with 5 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines provided with generators and heat pumps in 11 stages for 1 to 12 turbines 6 times in diameter. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 12 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of the biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 8 times 13-stage generators and heat pumps with a horizontal blade (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 14 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + 1 to 12 turbine diameters in a horizontal shaft (16A) with bite, and a generator and heat pump are installed in 15 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 16 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with 12 shaft diameters in a horizontal shaft (16A) and a generator and heat pump in 17 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を18段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 18 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を19段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 19 stages etc. with 3 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を20段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 20 stages of 4 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を21段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines provided with generators and heat pumps in 5 stages of 1 to 12 turbine diameters in 21 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を22段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 22 stages, etc. with 6 times the diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を23段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 23 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を24段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 24 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を25段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 25 stages of 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を26段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 10 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 26 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を27段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 27 stages of 1 to 12 turbine diameters 1x on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を28段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various calorie turbines + Inverted all blade turbine horizontal axis (16A) 1-12 turbine diameter 12 times with 28 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を29段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 29 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を30段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 30 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を31段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 31 stages, etc. with 4 to 12 turbine diameters in the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を32段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) with 32 generators and heat pumps Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を33段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps installed in 33 stages, etc., with 6 stages of turbine diameter 6 to 12 on the horizontal axis (16A) of the biting full blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を34段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 34 stages etc. with 7 times the diameter of 1 to 12 turbines in the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を35段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 35 stages, etc., with 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of the bite turbine blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を36段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. In 16A), various energy storage cycle coalescing engines in which 1 to 12 turbines are 9 times larger in diameter and are equipped with generators and heat pumps in 36 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を37段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 37 stages with 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を38段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) of a bite turbine blade and a generator and heat pump in 38 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を39段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 12 to 12 turbine diameters in 39 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を40段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all blade turbine horizontal axis (16A) with 1 to 12 turbine diameters doubled to 40 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を41段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 41 stages, etc., with 3 times the diameter of 1 to 12 turbines with a horizontal axis (16A) of compressed heat recovery + bite all rotor blades turbine (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を42段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chilled turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a horizontal axis (16A) equipped with generators and heat pumps in 42 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を43段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 43 stages, etc., with 5 times the turbine diameter of 1 to 12 turbines on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を44段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 44 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を45段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 45 stages of 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を46段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 8 times, various energy storage cycle coalescing engines provided with generators and heat pumps in 46 stages. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を47段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 47 stages of turbine blades 9 to 9 times in diameter with a bite all rotor blade horizontal axis (16A). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を48段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 48 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を49段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 49 stages, etc., with 1 to 12 turbine diameters multiplied by a horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を50段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps installed in 50 stages of 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を51段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are doubled to 51 stages or the like and a generator or heat pump is provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を52段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 52 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を53段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal shaft (16A) with 4x the diameter of the turbine, and generators and heat pumps are provided in 53 stages, etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を54段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + heat drive, combined with various gravity turbines + edging all rotor blades turbine horizontal axis (16A), 1 to 12 turbine diameters 5 times 54 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を55段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + calorie-driven various gravity turbines + edging all blade turbine horizontal axis (16A) 1 to 12 turbine diameters 6 times 55 stages with generator and heat pump Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を56段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 56 stages with 1 to 12 turbine diameters 7 times on the horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbines for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を57段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Chiller turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 8 times in 57 stages with generators and heat pumps in the horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を58段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy conservation cycle coalescing engines with generators and heat pumps in 58 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of the biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を59段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 59 stages, etc. with a turbine diameter 10 times as large as 1 to 12 turbines on the horizontal axis (16A) of the biting blade. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を60段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material with reduced impact on specific substances are saved and stored. + The compressed air is heated by compressing the air heated by geothermal heat. + The compressed heat recovery is recovered from the heat of the cold turbine. Various energy storage cycle coalescing engines with generators and heat pumps in 60 stages, etc., with 1 to 12 turbine diameters 1x on the horizontal shaft (16A) of the biting full rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を1段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) The liquid metal and the material that reduces the impact of specific substances are saved and stored in the heat source. + The compressed air is heated by the geothermal heat and compressed air is recovered. 16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters 12 times are provided with a generator and a heat pump in one stage. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+工場電化全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を2段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter, approximately the same shape, the same length geothermal power generation turbine is installed in multiple stages + factory electrification prime + increasing ball rising device (2F) To save and save the liquid metal and the material that reduces the impact of specific significant substances + compress the geothermal heating air and heat the geothermal heating air + recover the compressed heat recovery + compress the heat recovery from the cold turbine exhaust + use with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in two stages of 1 to 12 turbine diameters doubled on a horizontal axis (16A) of a biting full rotor blade turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を3段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbines with a horizontal axis (16A) with a edging turbine blade and a heat pump in 3 stages Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を4段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + heat-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) 1 to 12 turbines 4 times larger in 4 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を5段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + calorie-driven various gravity turbines + edging all rotor blades turbine horizontal axis (16A) with 5 to 5 turbine diameters in 5 stages etc. Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を6段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Various energy storage cycle coalescing engines equipped with generators and heat pumps for 6 stages of 1 to 12 turbine diameters with a horizontal axis (16A) of compressed heat recovery + bite all rotor blade turbine (16A) for cold turbine exhaust. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを設けた構造+蓄電池駆動や電気駆動や温熱利用全盛にする+地熱を地熱空気加熱器(2z)で集める+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径7倍を7段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) with 1 to 26 times the same diameter approximately the same shape and the same length geothermal power generation turbine + storage battery drive, electric drive and warm use of heat + Collect by geothermal air heater (2z) + Increase sphere rising device (2F) to save and store liquid metal and specific material impact reduction material + Compress geothermal heating air by heating and compressing geothermal heating air + Compressed heat recovery + Cryogenic turbine exhaust is used for compression heat recovery + combined use with various heat-driven gravity turbines + 1 to 12 turbine diameters 7x in 7 stages with generator and heat pump installed in a horizontal shaft (16A) Various energy conservation cycle coalescence engine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径8倍を8段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 8 stages of 1 to 12 turbine diameters 8 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径9倍を9段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 9 stages with 1 to 12 turbine diameters 9 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径10倍を10段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 10 stages of 1 to 12 turbine diameters 10 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径1倍を11段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) Various energy storage cycle coalescing engines in which 1 to 12 turbine diameters are set to 11 stages and a generator and a heat pump are provided. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンを多段に設けた+全面電化住宅全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径12倍を12段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal turbine blade cross section (4X) 1-26 times the same diameter approximately the same shape and the same length geothermal power turbines are provided in multiple stages + full electrification house prime + increasing ball rising device (2F ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 12 stages of 1 to 12 turbine diameters 12 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径2倍を13段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 13 stages, etc., with 1 to 12 turbine diameters doubled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径3倍を14段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 14 stages of 1 to 12 turbine diameters tripled on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンに併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径4倍を15段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific substances are saved and stored + Compressed air is heated by geothermal heat, heated air is heated and compressed heat recovered + Compressed heat recovered from cold turbine exhaust + Used in various gravity-driven gravity turbines + Various energy storage cycle coalescing engines equipped with generators and heat pumps in 15 stages of 4 to 12 turbine diameters on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+食込全動翼タービン水平軸(16A)で1〜12台のタービン径5倍を16段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and material with reduced impact on specific material are saved and stored + Compressed air recovered by compressing geothermal heated air + Compressed heat recovery + Compressed heat recovery of cold turbine exhaust + Horizontal axis of biting all rotor blade turbine (16A) 1 to 12 turbine diameters 5 times, various energy storage cycle coalescing engines provided with 16-stage generators and heat pumps. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍の同径略同形同長地熱発電タービンの多段構造+蓄電池駆動各種自動車類全盛にする+増大球上昇装置(2F)で液体金属と比重大物質衝撃低減材料を上昇保存する+地熱で加熱の空気を圧縮して地熱加熱空気を加熱圧縮熱回収+冷熱タービン排気を圧縮熱回収+熱量駆動各種重力タービンと併用する+食込全動翼タービン水平軸(16A)で1〜12台のタービン径6倍を17段等に発電機や熱ポンプを設けた各種エネルギ保存サイクル合体機関。   Multi-stage structure of cored geothermal turbine blade cross-section (4X) with the same diameter and approximately the same shape and the same length of geothermal power generation turbine with encroaching liquid metal gravity cooling and heating turbine ) Liquid metal and specific material impact reduction materials are stored and raised + Compressed air is heated by geothermal heat, heated air is heated and compressed heat is recovered + Compressed heat is recovered from chilled turbine exhaust + Used in combination with various gravity turbines + Various energy storage cycle coalescing engines with generators and heat pumps in 17 stages of 1 to 12 turbine diameters 6 times on the horizontal axis (16A) of biting all rotor blades. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を1〜26倍に設けてタービン駆動金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with a turbine driven metal sphere mercury gravitational gravitational heat driven geothermal turbine by providing a core geothermal turbine blade cross section (4X) 1 to 26 times as large as a biting liquid metal gravity cold heat turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を2倍に設けてタービン駆動被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with a turbine driven coated metal sphere mercury gravity gravitational calorific power driven geothermal turbine by providing twice the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を3倍に設けてタービン駆動金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use a turbine-driven metal sphere mercury gravity series calorie-driven geothermal turbine in triplicate with a three-fold core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を4倍に設けてタービン駆動被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that are used in combination with a turbine-driven coated metal sphere mercury gravity series calorie-driven geothermal turbine with four times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を5倍に設けてタービン駆動金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use a turbine driven metal sphere mercury gravity opposed heat driven geothermal turbine with 5 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を6倍に設けてタービン駆動被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that use 6 times the core geothermal turbine blade cross-section (4X) of the encroaching liquid metal gravity cold and cold turbine and that are used in combination with the turbine-driven coated metal sphere mercury gravity counter-heated geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を7倍に設けてタービン駆動金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use a turbine driven metal sphere mercury gravity vertical calorie driven geothermal turbine with 7 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を8倍に設けてタービン駆動被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with turbine-driven coated metal sphere mercury gravity-gravity calorific-heat-driven geothermal turbines with 8 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を9倍に設けてタービン駆動金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use 9 times the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cold heat turbine and use it together with the turbine driven metal ball water gravity biting heat driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を10倍に設けてタービン駆動被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with turbine-driven coated metal sphere water gravity gravitational heat-driven geothermal turbines by providing 10 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を11倍に設けてタービン駆動金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use 11 times the core geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cooling / cooling turbine and use it in combination with a turbine driven metal ball water gravity series calorie driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を12倍に設けてタービン駆動被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that use twelve times (4X) core geothermal turbine blade cross-section (4X) in the encroaching liquid metal gravity cold and heat turbine and use in combination with a turbine driven coated metal ball water gravity series calorie driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を13倍に設けてタービン駆動金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use 13 times the core geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cooling / cooling turbine and that are used in combination with the turbine driven metal ball water gravity counter heat driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を14倍に設けてタービン駆動被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that use 14 times the core geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cold and cold turbine and that are used in combination with the turbine-driven coated metal sphere water gravity counter-heat-driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を15倍に設けてタービン駆動金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use a turbine driven metal ball water gravity gravity calorie driven geothermal turbine with 15 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を16倍に設けてタービン駆動被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use 16 times the core geothermal turbine blade cross section (4X) of the encroaching liquid metal gravity cold and cold turbine and that are used in combination with the turbine driven coated metal sphere water gravity vertical heat drive geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を17倍に設けてタービン駆動金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that use 17 times the core geothermal turbine blade cross section (4X) of the biting liquid metal gravity cold heat turbine and use it in combination with the turbine driven metal sphere mercury gravity biting heat driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を18倍に設けてタービン駆動被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with a turbine driven coated metal sphere mercury gravity gravitational heat driven geothermal turbine by providing 18 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を19倍に設けてタービン駆動金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines with 19 times the core geothermal turbine blade cross-section (4X) of the encroaching liquid metal gravity cold and cold turbine and used in combination with a turbine driven metal sphere mercury gravity series calorie driven geothermal turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を20倍に設けてタービン駆動被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that are used in combination with a turbine-driven coated metal sphere mercury gravity series calorie-driven geothermal turbine by providing a core geothermal turbine blade cross section (4X) 20 times larger than that of a biting liquid metal gravity cold-heat turbine. 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を21倍に設けてタービン駆動金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that are used in combination with turbine-driven metal sphere mercury gravity counter-heat-driven geothermal turbines with 21 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を22倍に設けてタービン駆動被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that are used in combination with a turbine driven coated metal sphere mercury gravity opposed heat quantity driven geothermal turbine with 22 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を23倍に設けてタービン駆動金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with turbine driven metal sphere mercury gravity gravity calorie driven geothermal turbines with 23 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を24倍に設けてタービン駆動被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy conservation cycle coalescence engines that are used in combination with a turbine-driven coated metal sphere mercury gravity-gravity calorie-driven geothermal turbine by providing 24 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱タービン翼断面(4X)を25倍に設けてタービン駆動金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Various energy storage cycle coalescence engines that use a turbine driven metal ball water gravity gravitational heat driven geothermal turbine with 25 times the core geothermal turbine blade cross section (4X). 食込液体金属重力冷熱タービン中核地熱各種タービン103段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pump driven by 103 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucking and compressing geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン104段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere and uses heat exchange with heating Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン105段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series heat-driven geothermal heat that uses geothermal heating CO2 together with the atmosphere to drive the heat pump by using 105 stages of various geothermal heat cores of the grazing liquid metal gravity cold and cold turbine and sucks and compresses the geothermal heating air together with the atmosphere. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン106段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere gravity gravity opposed heat quantity driven geothermal turbine that uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of the geothermal heating to exchange heat and heat. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン107段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity gravity-driven geothermal heat that uses geothermal heating CO2 with the atmosphere to suck and compress geothermal heating CO2 together with the atmosphere and use heat exchange for heating Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン108段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal Heat pump is driven by 108 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン109段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal ball water gravity gravity type calorific value drive that uses geothermal heating CO2 with the atmosphere and compresses geothermal heating CO2 with the atmosphere and heats the geothermal heating air by heat and heat exchange by using 109 stages of various core turbines of erosion liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン110段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 110 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン111段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive using heat pump driven by 111 stages of various geothermal core turbines with edible liquid metal gravity cooling and heating, and geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン112段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat turbine is driven by 112 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン113段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series heat-driven geothermal heat that uses heat pump to drive geothermal heat CO2 together with air and compresses geothermal heated air using heat and heat exchange by 113 stages of various geothermal core heat from cored geothermal metal Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン114段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / cooling turbine Core geothermal heat Heat pump is driven by 114 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン115段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity opposed heat-driven geothermal heat that uses heat pumps driven by 115 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucks and compresses geothermally heated CO2 together with the atmosphere and heats the geothermally heated air for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン116段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 116 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン117段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravitational saddle-type calorific value drive using heat pump driven by 117 stages of core geothermal various types of biting liquid metal gravity cold and cold turbines and sucking and compressing geothermal heating CO2 together with the atmosphere and using the heat of geothermal heating Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン118段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine Core geothermal heat Heat pump is driven by 118 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン119段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pump driven by 119 stages of core geothermal turbines of edible liquid metal gravity refrigeration and turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン120段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses heat pumps driven by 120 stages of core geothermal turbines with various types of biting liquid metal gravity and cools and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン1段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat that uses geothermal heating CO2 together with the atmosphere to drive the heat pump by using various stages of turbines in the core geothermal core of the submerged liquid metal gravity cooling and heating turbine, Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン2段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity-opposed heat-driven geothermal turbine that uses geothermal heating CO2 with air and compresses geothermal heating CO2 with the atmosphere and heats the geothermal heating air by heat and heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン3段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity counter-heated geothermal heat that uses a geothermal heat pump to drive the heat pump through the three stages of the core geothermal heat source of the grazing liquid metal gravity cooling and heat, and sucks and compresses the geothermal heating CO2 together with the atmosphere. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン4段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 4 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン5段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity-type calorific value drive using heat pump driven by 5 stages of core geothermal various types of biting liquid metal gravity cold and cold turbines and sucking and compressing geothermal heating CO2 together with air and using geothermal heating air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン6段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic mercury gravity gravitational heat-driven geothermal heat that uses geothermal heating CO2 together with the atmosphere and heats the geothermal heating air by heat and heat exchange by driving a heat pump with 6 stages of core geothermal heat from various types of gravitational liquid metal gravity refrigeration turbines Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン7段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive driven by heat pumps driven by 7 stages of cored geothermal cores of edible liquid metal gravity cold and heat turbines and sucking and compressing geothermally heated CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン8段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere mercury gravity series calorific value driven geothermal turbine that uses heat pump to drive geothermal heating CO2 together with air and compresses geothermal heating air with heating heat exchange by using heat pump with 8 stages of core geothermal turbines Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン9段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series calorific value driven geothermal heat which uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere and uses heat exchange with heating Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン10段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere mercury gravity opposed calorific value driven geothermal turbine that uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of the geothermal heating to exchange heat and heat. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン11段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity counter-heated geothermal heat that uses heat pumps driven by 11 stages of various geothermal heat cores of a grazing liquid metal gravity cooling and heat turbine, sucks and compresses geothermal heating CO2 together with the atmosphere, and uses the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン12段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal heat pump is driven by 12 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange and heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン13段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravitational saddle-type calorific value drive using heat pump driven by 13 stages of core geothermal turbines with edible liquid metal gravity cooling and heating, and geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン14段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine core geothermal heat pump is driven by 14 stages of various geothermal turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン15段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pump driven by 15 stages of core geothermal cores of edible liquid metal gravity refrigeration turbine and suctioning and compressing geothermal heating CO2 together with air and using geothermal heating air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン16段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine which uses heat pump to drive geothermal heating CO2 together with air and compresses geothermal heating air by heating and heat exchange by using 16 stages of core geothermal turbines with biting liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン17段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat which uses heat pump to drive geothermal heating CO2 together with the atmosphere by using 17 stages of cored geothermal core heat source of gravitational liquid metal gravity cooling and heat turbine and sucks and compresses geothermal heating CO2 together with air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン18段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Gravity liquid metal gravity cold heat turbine core geothermal various heat turbines are driven by 18 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン19段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity counter-heated geothermal heat driven by heat pumps driven by 19 stages of cored geothermal cores of edible liquid metal gravity refrigeration turbines to suck and compress geothermally heated CO2 together with the atmosphere and use heat for heat exchange of geothermally heated air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン20段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity gravity type calorific value driven geothermal which uses heat pump to drive geothermal heating CO2 together with the atmosphere and uses geothermal heating air to heat and exchange heat by driving heat pump with 20 stages of core geothermal various cores of grazing liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン21段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal ball water gravity gravity type calorific value drive that uses a heat pump driven by 21 stages of core geothermal turbines of a bite-in liquid metal gravity cold heat turbine and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of the geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン22段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic mercury gravity gravitational heat-driven geothermal heat that uses heat pump to drive geothermal heating CO2 together with air and compresses geothermal heating air using heat and heat exchange by using 22 stages of turbine Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン23段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive using heat pumps driven by 23 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and using the heat of geothermally heated air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン24段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere mercury gravity series calorie driven geothermal turbine that uses heat pump to drive geothermal heating CO2 with the atmosphere by using various 24 stages of core geothermal turbines with biting liquid metal gravity cooling and heat turbine, and sucks and compresses geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン25段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series heat-driven geothermal heat that uses a heat pump driven by 25 stages of cored geothermal cores of edible liquid metal gravity refrigeration turbines and sucks and compresses geothermally heated CO2 together with the atmosphere and heats the geothermally heated air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン26段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal various heat turbines are driven by 26 stages of turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン27段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity counter-heated geothermal heat driven by a heat pump driven by 27 stages of cored geothermal cores of edible liquid metal gravity refrigeration turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and using the heat of geothermally heated air for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン28段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic gravity mercury gravity type calorie-driven geothermal heat that uses heat pump to drive geothermal heating CO2 together with the atmosphere by using various turbines of 28 stages of cored geothermal heat sourced by the gravitational liquid metal gravity cooling and heat turbine and sucks and compresses the geothermal heating air together with the atmosphere. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン29段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity vertical calorific value drive using heat pumps driven by 29 stages of core geothermal cores of edible liquid metal gravity cold and cold turbines and sucking and compressing geothermal heating CO2 together with the atmosphere and using the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン30段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine Core geothermal heat Heat pump is driven by 30 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン31段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pump driven by 31 stages of core geothermal various core metal geothermal cooling turbines, sucking and compressing geothermal heating CO2 together with air and using geothermal heating air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン32段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses heat pumps driven by 32 stages of various geothermal core turbines to ingest and compress geothermal heating CO2 together with the atmosphere, and uses geothermal heating air for heat and heat exchange Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン33段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat which uses geothermal heating CO2 together with the atmosphere to drive the heat pump by using the 33 stages of core geothermal core heat of the biting liquid metal gravity cold and cold turbine and sucks and compresses the geothermal heated air together with the heat. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン34段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal various heat turbines driven by 34 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン35段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity counter-heated geothermal heat driven by heat pumps driven by 35 stages of cored geothermal heat from various types of submerged liquid metal gravity cooling turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere to use the heat of geothermal heating. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン36段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity gravity type calorific value driven geothermal heat which uses heat pumps driven by 36 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucks and compresses geothermally heated CO2 together with the atmosphere and heats the geothermally heated air for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン37段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal ball water gravity gravity type calorific value drive that uses geothermal heating CO2 with air and compresses the geothermal heating CO2 with the atmosphere and uses heat exchange with heating Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン38段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic mercury gravity gravitational heat-driven geothermal heat that uses a heat pump driven by 38 stages of various geothermal heat cores of a grazing liquid metal gravity cooling and heating turbine and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of the geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン39段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive using heat pump driven by 39 stages of core geothermal turbines with edible liquid metal gravity cooling and heat, and geothermal heating CO2 is sucked and compressed with air and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン40段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere mercury gravity series calorific value driven geothermal turbine that uses heat pumps driven by 40 stages of various geothermal core heat turbines to inhale and compress geothermal heating CO2 together with the atmosphere and use geothermal heating air for heat exchange Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン41段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series calorific value driven geothermal heat which uses heat pump to drive geothermal heating CO2 together with the atmosphere and uses geothermal heating air for heat and heat exchange by driving heat pump by 41 stages of various geothermal core gas cores of edible liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン42段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal various heat turbines are driven by 42 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン43段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal spheres Gravity gravity counter-driven geothermal heat driven by heat pumps driven by 43 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and heating and exchanging geothermally heated air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン44段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic gravity mercury gravity type calorific value driven geothermal which uses heat pump by driving the heat pump by 44 stages of various geothermal heat cores of the grazing liquid metal gravity cold heat turbine and sucking and compressing geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン45段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Encrusted liquid metal gravity cold heat turbine Core geothermal various heat turbines driven by 45 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange for heating. Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン46段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine core geothermal heat pump is driven by 46 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン47段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using a heat pump driven by 47 stages of core geothermal various types of edible liquid metal gravity cooling and heating turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere and the geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン48段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses heat pumps driven by 48 stages of core geothermal turbines of various types of grazing liquid metal gravity cooling and heating turbines and sucks and compresses geothermally heated CO2 together with the atmosphere and uses the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン49段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat which uses heat pumps driven by 49 stages of various geothermal heat turbines to suck in and compress geothermally heated CO2 together with the atmosphere and use the heat of the geothermal heated air for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン50段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity-opposed-heat-driven geothermal turbine that uses heat pumps driven by 50 stages of various geothermal core turbines to ingest and compress geothermal heating CO2 together with the atmosphere, and uses geothermal heating air for heat and heat exchange Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン51段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity counter-heated geothermal heat driven by a heat pump driven by a 51 stage stage of various geothermal heat cores of a grazing liquid metal gravity cooling / heat turbine and sucking and compressing geothermal heating CO2 together with the atmosphere and using the heat of the geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン52段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal heat pump is driven by 52 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン53段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity gravity type calorific value drive using heat pump driven by 53 stages of cored geothermal cores of edible liquid metal gravity cooling and heating turbine, and geothermal heating CO2 is sucked and compressed together with air, and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン54段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine core geothermal heat pump is driven by 54 stages of various geothermal turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange and heating. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン55段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive using heat pumps driven by 55 stages of core geothermal cores of edible liquid metal gravity cold and cold turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and heating and exchanging geothermally heated air Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン56段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal various heat turbines driven by 56 stages of turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat heat exchange geothermal mercury gravity series heat driven geothermal turbine Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン57段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series heat-driven geothermal heat that uses a geothermal heating CO2 with the atmosphere to drive and heat-heat the geothermal heating air by heating and exchanging the geothermal heating CO2 with the air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン58段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine Core geothermal various heat turbines driven by 58 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン59段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity counter-heated geothermal heat that uses a heat pump driven by 59 stages of core geothermal cores of a edible liquid metal gravity cold heat turbine and uses geothermal heating CO2 to suck and compress the geothermal heating air together with the atmosphere and uses the heat of the geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン60段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metallic gravity mercury gravity type calorie-driven geothermal heat that uses heat pump to drive geothermal heating CO2 together with the atmosphere and heat and exchange geothermal heating air by heating and heat exchange by using 60 stages of various geothermal core gas cores of edible liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン61段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravitational saddle type calorific value drive using heat pump driven by 61 stages of core geothermal cores of edible liquid metal gravity cold and cold turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and heating and exchanging geothermally heated air Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン62段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal heat pump is driven by 62 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange and heating. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン63段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pumps driven by 63 stages of core geothermal cores of gravitational liquid metal gravity cooling and cooling turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン64段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses heat pump to drive geothermal heating CO2 together with air and heat and exchange geothermal heating air by heating and heat exchange using 64 stages of core geothermal various core metal geothermal heat turbines Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン65段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat which uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere to heat and exchange the geothermal heating air by heating and exchanging the heat pump with 65 stages of various geothermal core heat sources Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン66段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling / heating turbine Core geothermal heat turbine is driven by various turbines 66 stage, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン67段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity counter-heated geothermal heat driven by heat pumps driven by 67 stages of cored geothermal heat from various types of submerged liquid metal gravity cooling turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and using the heat of the geothermal heated air for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン68段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity gravity type calorific value driven geothermal heat that uses geothermal heating CO2 together with the atmosphere to drive the heat pump by using various turbines 68 stages of geothermal heating cored geothermal heat and heat exchange of the geothermal heating air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン69段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity-type calorific value drive using heat pump driven by 69 stages of various geothermal cores of edible liquid metal gravity cooling and heating turbines, and geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heating and heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン70段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 70 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン71段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive driven by heat pump driven by 71 stages of core geothermal turbines of edible liquid metal gravity refrigeration turbines and sucking and compressing geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン72段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat turbine is driven by 72 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange and heating. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン73段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series calorific value driven geothermal heat which uses heat pumps driven by 73 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucks and compresses geothermal heating CO2 together with the atmosphere and uses the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン74段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat turbine driven by 74 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat heat exchange geothermal turbine Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン75段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity counter-heated geothermal heat driven by a heat pump driven by 75 stages of cored geothermal cores of edible liquid metal gravity refrigeration turbine and sucking and compressing geothermally heated CO2 together with the atmosphere and heating and exchanging geothermally heated air Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン76段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal heat pump is driven by 76 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange and heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン77段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravitational saddle-type calorific value driven by heat pump driven by 77 stages of core geothermal cores of edible liquid metal gravity cold and cold turbines and sucking and compressing geothermally heated CO2 together with the atmosphere and using the heat of geothermally heated air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン78段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 78 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン79段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pumps driven by 79 stages of core geothermal cores of edible liquid metal gravity cooling and heating turbines, and geothermal heating CO2 is sucked in and compressed together with the atmosphere and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン80段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses heat pumps driven by 80 stages of various geothermal core gas cores of edible liquid metal gravity refrigeration turbine and sucks and compresses geothermal heating CO2 together with the atmosphere and heats the heat of geothermal heating Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン81段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat that uses heat pumps driven by 81 stages of various geothermal heat cores of a grazing liquid metal gravity cooling and heat turbine and sucks and compresses geothermal heating CO2 together with the atmosphere and heats the heat of geothermal heating Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン82段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cooling and heat turbine Core geothermal various heat turbines are driven by 82 stages of turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat and heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン83段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity gravity-driven geothermal heat driven by heat pumps driven by heat pumps by 83 stages of various geothermal heat cores of gravitational liquid metal gravity cold heat turbines and sucking and compressing geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン84段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine core geothermal heat pump is driven by 84 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange and heating. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン85段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity-type calorific value drive that uses heat pumps driven by 85 stages of core geothermal cores of edible liquid metal gravity refrigeration turbines and sucks and compresses geothermal heating CO2 together with the atmosphere and heats the geothermal heating air Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン86段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity refrigeration turbine Core geothermal heat pump is driven by 86 stages of various geothermal turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン87段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity gravitational entrainment calorific value drive using heat pump driven by 87 stages of core geothermal various core metal geothermal cooling turbines, sucking and compressing geothermal CO2 together with air and using geothermal heating air for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン88段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal various heat turbines driven by 88 stages of turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat heat exchange geothermal mercury gravity series heat driven geothermal turbine Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン89段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity series heat-driven geothermal heat that uses a heat pump driven by 89 stages of core liquid geogravity cold heat turbines to inhale and compress geothermal heating CO2 together with the atmosphere and use the heat of geothermal heating for heat exchange Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン90段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusive liquid metal gravity cooling / heating turbine Core geothermal heat turbine is driven by 90 stages of turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン91段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere mercury gravity counter-heated geothermal heat driven by a heat pump driven by a 91-stage turbine with various geothermal heating cores of a bite-in liquid metal gravity cold heat turbine and sucking and compressing geothermally heated CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン92段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 92 stages of various turbines, geothermal heating CO2 is sucked and compressed together with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン93段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水銀重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Encrusted liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 93 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン94段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold heat turbine Core geothermal heat Heat pump is driven by 94 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange. Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン95段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity encroaching calorific value drive using heat pumps driven by 95 stages of core geothermal cores of edible liquid metal gravity cooling and heating turbines, and geothermal heating CO2 is sucked and compressed with the atmosphere and geothermal heating air is used for heat exchange Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン96段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity series calorific value driven geothermal turbine that uses geothermal heating CO2 with air and compresses geothermal heating CO2 with the atmosphere and heats the geothermal heating air by heat and heat exchange by using 96 stages of core geothermal turbines with biting liquid metal gravity cold heat turbine Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン97段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力直列熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity series calorific value driven geothermal heat which uses geothermal heating CO2 with the atmosphere and sucks and compresses geothermal heating CO2 together with the atmosphere and uses heat exchange with heating Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン98段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere gravity gravity opposed heat driven geothermal turbine that uses geothermal heating CO2 with air and compresses the geothermal heating CO2 together with the atmosphere to heat and exchange the geothermal heating air by heating and exchanging the heat pump with 98 stages of various geothermal core core geothermal turbines Various energy storage cycle coalescing engines used together. 食込液体金属重力冷熱タービン中核地熱各種タービン99段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力対向熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere gravity gravity-driven geothermal heat driven by heat pump driven by 99 stages of various geothermal heat cores of gravitational liquid metal gravity cold and heat turbines and sucking and compressing geothermal heating CO2 together with the atmosphere Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン100段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Metal sphere water gravity gravity type calorific value driven geothermal which uses heat pump to drive geothermal heating CO2 together with air and heat and exchange geothermal heating air by heating and heat exchange by using 100 stages of various geothermal turbine core geothermal turbines Various energy storage cycle coalescing engines used in combination with turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン101段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する被覆金属球水重力竪型熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Coated metal sphere water gravity gravity type calorific value drive using heat pump driven by 101 stages of various geothermal core gas cores of gravitational liquid metal gravity cooling and heating, suctioning and compressing geothermal heating CO2 together with the atmosphere, and heating and exchanging geothermal heating air Various energy storage cycle coalescing engines used in combination with geothermal turbines. 食込液体金属重力冷熱タービン中核地熱各種タービン102段により熱ポンプを駆動して地熱加熱のCO2を大気と共に吸入圧縮して地熱加熱の空気を加熱熱交換使用する金属球水銀重力食込熱量駆動地熱タービン併用する各種エネルギ保存サイクル合体機関。   Intrusion liquid metal gravity cold-heat turbine core geothermal heat pump is driven by 102 stages of various turbines, geothermal heating CO2 is sucked and compressed with the atmosphere, and geothermal heating air is used for heat exchange and heating. Various energy storage cycle coalescing engines used in combination with turbines.
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